Development of new control methods for greenhouse plant lighting systems to improve their energy and environmental performance (uMol) (Q3056385)
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Project Q3056385 in Latvia
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Development of new control methods for greenhouse plant lighting systems to improve their energy and environmental performance (uMol) |
Project Q3056385 in Latvia |
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509,663.57 Euro
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599,604.21 Euro
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85.0 percent
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1 March 2017
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29 February 2020
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RĪGAS TEHNISKĀ UNIVERSITĀTE
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56°57'5.36"N, 24°4'46.06"E
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56°39'21.13"N, 23°44'2.04"E
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56°39'47.84"N, 23°45'13.21"E
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Projekta ietvaros tiks izstrādātas jaunas fotobioloģiskās vadības metodes esošiem ražošanas procesiem siltumnīcās, auditēšanas metodes enerģijas un ekoloģisko parametru efektivitātes novērtēšanai. Projekta gaitā tiks izstrādātas, praktiski realizētas un testētas arī jaunas mērīšanas un vadības sistēmu ierīces. Izmantojot jaunos Bio-Enerģētiskās Sistēmas algoritmus, kas tiks testēti un salīdzināti pie dažādiem apgaismojuma avotiem reālas siltumnīcas apstākļos, plānots iegūt elektroenerģijas ietaupījumus līdz 30%, vienlaicīgi nodrošinot to pašu augšanas ražību. Tiks pārbaudīts kā papildus apgaismojums ietekmē bioloģiski aktīvu vielu veidošanās intensitāti dārzeņos (tomātos, gurķos, salātos) dažādās sezonās.Atslēgas vārdi: siltumnīcu ekosistēmas, energo-efektivitāte, IKT vadības sistēmas, apgaismojuma sistēmas, sensori, dārzeņi, bioloģiski aktīvas vielas.Projekta ietvaros tiks izveidota zinātnisko mērījumu bāze un izstrādāta jauna „uMOL” vadības sistēma, lai nodrošinātu kontrolētu augu audzēšanas vidi industriālās un ražošanas siltumnīcās, kur audzē dažādas kultūras (tomāti, gurķi, salāti, zemenes, puķes), izmantojot jaunus intelektuālus vadības algoritmus, kas nodrošinās energoefektīvu un videi draudzīgu ražošanu, ietverot arī jaunus sensorus elektroenerģijas patēriņa un augu augšanas parametru novērošanai, kā arī jaunus analīzes un optimizācijas rīkus, lai palielinātu siltumnīcu sistēmas kopējo efektivitāti par 30%, salīdzinot pret esošām tipveida sistēmām. Optimizējot nepieciešamos apgaismojuma un starojuma līmeņus siltumnīcas augu audzēšanas un augļu iegūšanas procesā, tiek samazināti arī izmantoto materiālu zudumi (ūdens, mēslojums, u.c.), kā arī enerģijas plūsmas zudumi (siltums, ventilācija, elektrība) kultivēšanas procesā, jo augšanas (ražošanas) procesi augos galvenokārt ir atkarīgi no apgaismojuma režīma, bet jau konkrētos augu gadījumos – no apgaismojuma avota spektra un gaismas intensitātes daudzuma.Galvenās projekta aktivitātes ir esošo sistēmu un to elementu energoefektivitātes analīze, arhitektūru un matemātisko modeļu izveide dažādu siltumnīcu tehnoloģiskajiem risinājumiem, jaunu sistēmas mezglu izveide un testēšana kontrolētos laboratorijas apstākļos, kur RTU laboratorijā galvenais fokuss ir uz energoefektivitāti un funkcionalitāti, bet LLU laboratorijā – uz bioloģiski aktīvu vielu veidošanās intensitāti dārzeņos dažādās sezonās un apstākļos, veselīgu dārzeņu iegūšanai ar paaugstinātu bioloģisko uzturvērtību. Laboratoriju datu iegūšanā un siltumnīcu sistēmu arhitektūru izveidē piedalās arī SIA „Eltex” inženieri, kas ļaus izveidot tirgus vajadzībām piemērotu tehnoloģiju, kuras gala variantu projekta beigās plānots arī testēt lielu industriālu siltumnīcu apstākļos.Atbilstoši OECD (FOS klasifikācijai), projekts atbilst „2.2. Elektrotehnikas, elektronikas un informācijas inženierzinātnes” un „4.4. Lauksaimniecības biotehnoloģija”.Projekta pētniecības kategorija ir eksperimentālā izstrāde un rūpnieciskie pētījumi. Projekts ir ar saimniecisko darbību nesaistīts. Projekta plānotais ERAF atbalsta apjoms ir 510 000 EUR.Projekta realizēšanas ilgums ir 36 mēneši sākot ar līguma vai vienošanās par projekta īstenošanu parakstīšanas datumu, sāktot ar 01.03.2017.Galvenie rezultāti: 1)Tiks iegūti plaši mērījumu dati par siltumnīcas elektrisko, klimata, ūdens un barošanas, kā arī fotobioloģisko parametru mijiedarbību dažādu gaismas avotu gadījumā vismaz viena gada šķērsgriezumā (3-4 stādīšanas cikli), mērījumu datus nodrošinot publiskai pieejamībai. 2)Izstrādātas rekomendācijas Latvijas industriālo siltumnīcu lietotājiem, sistēmu ražotājiem, atkarībā no to izmantotās sistēmas un mākslīgā apgaismojuma avotiem.3)Izveidota jauna tehnoloģija – uMOL vadības sistēma un infrastruktūras arhitektūra un pamatprincipi jaunu siltumnīcu izbūvei, kas ļauj ietaupīt 30% elektroenerģijas, nesamazinot augu ražību. (Latvian)
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Within the framework of the project new photobiological management methods for existing production processes in greenhouses, auditing methods for energy and environmental performance evaluation will be developed. During the project new measuring and control system devices will be developed, implemented and tested. Using the new Bio-Energy System algorithms, which will be tested and compared to different lighting sources under real greenhouse conditions, it is planned to achieve electricity savings of up to 30 % while ensuring the same growth rate. It will be examined how additional lighting influences the formation intensity of biologically active substances in vegetables (tomatoes, cucumbers, salads) in different seasons. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. The engineers of SIA “Eltex” are also participating in the acquisition of laboratory data and building of greenhouse system architectures, which will allow the development of a technology suitable for market needs, the final version of which is planned to be tested in conditions of large industrial greenhouses at the end of the project. Electrical engineering, electronics and information engineering“and”4.4. Agricultural biotechnology".The project’s research category is experimental development and industrial research. The project is not linked to economic activity. (English)
15 July 2021
0.7150660498984387
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Dans le cadre du projet, de nouvelles méthodes de gestion photobiologique seront mises au point pour les processus de production existants dans les serres, ainsi que des méthodes d’audit pour évaluer l’efficacité des paramètres énergétiques et environnementaux. Au cours du projet, de nouveaux dispositifs pour les systèmes de mesure et de contrôle seront développés, mis en œuvre et testés. En utilisant les nouveaux algorithmes Bio-Energy System, qui seront testés et comparés à différentes sources d’éclairage dans des conditions réelles de serre, il est prévu de réaliser des économies d’électricité allant jusqu’à 30 % tout en assurant le même rendement de croissance. On examinera comment l’éclairage supplémentaire affecte l’intensité de la formation de substances biologiquement actives dans les légumes (tomates, concombres, salades) au cours des différentes saisons. les écosystèmes de serre, l’efficacité énergétique, les systèmes de gestion des TIC, les systèmes d’éclairage, les capteurs, les légumes, les substances biologiquement actives. Dans le cadre du projet, une base de mesure scientifique sera développée et un nouveau système de gestion «umol» sera mis au point afin d’assurer un environnement végétal contrôlé dans les serres industrielles et de production où sont cultivées diverses cultures (tomates, concombres, laitues, fraises, fleurs) à l’aide de nouveaux algorithmes de contrôle intelligents qui assureront une production économe en énergie et respectueuse de l’environnement, y compris de nouveaux capteurs pour surveiller la consommation d’électricité et les paramètres de croissance des plantes, ainsi que de nouveaux outils d’analyse et d’optimisation pour accroître l’efficacité globale du système de serre de 30 % par rapport aux systèmes typiques existants. En optimisant les niveaux d’éclairage et de rayonnement nécessaires lors de la culture et de la fructification des plantes de serre, les pertes de matériaux utilisés (eau, engrais, etc.) ainsi que les pertes de flux d’énergie (chaleur, ventilation, électricité) dans le processus de culture sont également réduites, les processus de croissance (production) dans les usines dépendant principalement du régime d’éclairage, mais déjà dans certains cas — du spectre de la source d’éclairage et de la quantité d’intensité lumineuse. Les principales activités du projet sont l’analyse de l’efficacité énergétique des systèmes existants et de leurs éléments, création d’architecture et de modèles mathématiques pour des solutions technologiques de diverses serres, création et essai de nouveaux nœuds système dans des conditions contrôlées en laboratoire, où le laboratoire RTU se concentre principalement sur l’efficacité énergétique et la fonctionnalité, et dans le laboratoire LLU — sur l’intensité de la formation de substances biologiquement actives dans les légumes dans les différentes saisons et conditions, pour obtenir des légumes sains avec une valeur nutritionnelle biologique accrue. Les ingénieurs de SIA "Eltex" participent à la collecte de données de laboratoire et à la création d’architectures de systèmes de serres, ce qui permettra le développement d’une technologie adaptée aux besoins du marché qui, à la fin du projet, devrait également être testée dans les conditions des grandes serres industrielles.Selon la classification FOS de l’OCDE, le projet correspond à "2.2. Génie électrique, électronique et informatique’et’4.4. Biotechnologie agricole"La catégorie de recherche du projet est le développement expérimental et la recherche industrielle. Le projet n’est pas économique. Le montant prévu du soutien du FEDER pour le projet est de 510 000 EUR.La durée du projet est de 36 mois à compter de la date de signature du contrat ou de l’accord sur la mise en œuvre du projet, à compter du 1er mars 2017. Principaux résultats: 1) Des données de mesure étendues sur l’interaction de l’électricité, du climat, de l’eau et de l’énergie en serre, ainsi que des paramètres photobiologiques dans le cas de différentes sources lumineuses dans une section transversale d’au moins un an (3-4 cycles de plantation) seront obtenues, fournissant des données de mesure pour la disponibilité du public. 2)Des recommandations ont été élaborées à l’intention des utilisateurs de serres industriels lettons, des fabricants de systèmes, en fonction du système qu’ils utilisent et des sources d’éclairage artificiel.3) Une nouvelle technologie a été mise au point — l’architecture du système de gestion et de l’infrastructure umol et les principes de base pour la construction de nouvelles serres, ce qui permet d’économiser 30 % de l’électricité sans réduire la productivité des installations. (French)
25 November 2021
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Im Rahmen des Projekts werden neue fotobiologische Managementmethoden für bestehende Produktionsprozesse in Gewächshäusern, Prüfmethoden zur Bewertung der Effizienz von Energie- und Umweltparametern entwickelt. Während des Projekts werden neue Messgeräte für Mess- und Steuerungssysteme entwickelt, implementiert und getestet. Mit Hilfe der neuen Bio-Energy-Systemalgorithmen, die unter realen Gewächshäusern getestet und mit unterschiedlichen Lichtquellen verglichen werden, ist geplant, Stromeinsparungen von bis zu 30 % zu erzielen und gleichzeitig den gleichen Wachstumsertrag zu gewährleisten. Es wird untersucht, wie sich zusätzliche Beleuchtung in verschiedenen Jahreszeiten auf die Intensität der Bildung biologisch aktiver Substanzen in Gemüse (Tomaten, Gurken, Salate) auswirkt. Gewächshausökosysteme, Energieeffizienz, IKT-Managementsysteme, Beleuchtungssysteme, Sensoren, Gemüse, biologisch aktive Substanzen. Im Rahmen des Projekts wird eine wissenschaftliche Messbasis entwickelt und ein neues „Umol“-Managementsystem entwickelt, um eine kontrollierte Pflanzenanbauumgebung in Industrie- und Produktionsgewächshäusern zu gewährleisten, in denen verschiedene Kulturen angebaut werden (Tomaten, Gurken, Salat, Erdbeeren, Blumen) mit Hilfe neuer intelligenter Regelalgorithmen, die eine energieeffiziente und umweltfreundliche Produktion gewährleisten, einschließlich neuer Sensoren zur Überwachung des Stromverbrauchs und Pflanzenwachstumsparameter sowie neue Analyse- und Optimierungstools, um die Gesamteffizienz des Gewächshaussystems um 30 % gegenüber den bestehenden Systemen zu erhöhen. Durch die Optimierung der erforderlichen Beleuchtungs- und Strahlungsniveaus während des Anbaus und der Fruchtung von Gewächshäusern werden die Verluste der verwendeten Materialien (Wasser, Dünger usw.) sowie Energieflussverluste (Wärme, Lüftung, Strom) im Anbauprozess ebenfalls verringert, da die Wachstumsprozesse (Produktions-)Prozesse in Pflanzen hauptsächlich vom Beleuchtungsregime, aber bereits in bestimmten Pflanzenfällen – vom Spektrum der Lichtquelle und der Lichtintensität – abhängig sind. Hauptaktivitäten des Projekts sind die Analyse der Energieeffizienz bestehender Systeme und ihrer Elemente, Erstellung von Architektur und mathematischen Modellen für technologische Lösungen verschiedener Gewächshäuser, Erstellung und Erprobung neuer Systemknoten in kontrollierten Laborbedingungen, bei denen der Schwerpunkt des RTU-Labors auf Energieeffizienz und Funktionalität liegt, und im LLU-Labor – auf die Intensität der Bildung biologisch aktiver Substanzen in Gemüse in verschiedenen Jahreszeiten und Bedingungen, um gesundes Gemüse mit erhöhtem biologischen Nährwert zu erhalten. Die Ingenieure von SIA "Eltex" beteiligen sich an der Erfassung von Labordaten und der Schaffung von Gewächshaussystemarchitekturen, die die Entwicklung einer marktgerechten Technologie ermöglichen, die am Ende des Projekts auch unter den Bedingungen großer Industriegewächshäuser getestet werden soll.Nach OECD (FOS-Klassifikation) entspricht das Projekt "2.2. Elektrotechnik, Elektronik und Informationstechnik„und“4.4. Agrarbiotechnologie Die Forschungskategorie des Projekts ist experimentelle Entwicklung und industrielle Forschung. Das Projekt ist nicht wirtschaftlich. Die geplante EFRE-Unterstützung für das Projekt beträgt 510 000 EUR.Die Laufzeit des Projekts beträgt 36 Monate ab dem Datum der Unterzeichnung des Vertrags oder der Vereinbarung über die Projektdurchführung ab dem 01.03.2017.Hauptergebnisse: 1)Wide Messdaten über die Wechselwirkung von Gewächshaus elektrischem, Klima, Wasser und Strom sowie photobiologische Parameter bei unterschiedlichen Lichtquellen in einem Querschnitt von mindestens einem Jahr (3-4 Pflanzzyklen) werden erhoben, wobei Messdaten für die öffentliche Verfügbarkeit zur Verfügung gestellt werden. 2) Empfehlungen wurden für lettische Industriegewächshausnutzer, Systemhersteller, je nach System, die sie verwenden, und Quellen der künstlichen Beleuchtung entwickelt.3) Es wurde eine neue Technologie entwickelt – Umol-Management-System und Infrastrukturarchitektur und Grundprinzipien für den Bau neuer Gewächshäuser, die eine Einsparung von 30 % des Stroms ermöglichen, ohne die Produktivität der Anlagen zu verringern. (German)
28 November 2021
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In het kader van het project zullen nieuwe fotobiologische beheersmethoden worden ontwikkeld voor bestaande productieprocessen in kassen, auditmethoden om de efficiëntie van energie- en milieuparameters te beoordelen. Tijdens het project zullen nieuwe meet- en regelapparatuur worden ontwikkeld, geïmplementeerd en getest. Met behulp van de nieuwe algoritmen van het bio-energiesysteem, die zullen worden getest en vergeleken met verschillende verlichtingsbronnen in reële kasomstandigheden, is het de bedoeling om elektriciteitsbesparingen tot 30 % te realiseren en tegelijkertijd dezelfde groeiopbrengst te garanderen. Onderzocht wordt hoe extra verlichting van invloed is op de intensiteit van de vorming van biologisch werkzame stoffen in groenten (tomaten, komkommers, salades) in verschillende seizoenen. broeikasecosystemen, energie-efficiëntie, ICT-beheersystemen, verlichtingssystemen, sensoren, groenten, biologisch actieve stoffen. Binnen het kader van het project zal een wetenschappelijke meetbasis worden ontwikkeld en zal een nieuw „umol”-managementsysteem worden ontwikkeld om een gecontroleerde plantenteeltomgeving te waarborgen in industriële en productiekassen waar verschillende gewassen worden geteeld (tomaten, komkommers, sla, aardbeien, bloemen) met behulp van nieuwe intelligente controle-algoritmen die energie-efficiënte en milieuvriendelijke productie garanderen, waaronder nieuwe sensoren voor het monitoren van elektriciteitsverbruik en groeiparameters van installaties, alsook nieuwe analyse- en optimalisatietools om de algehele efficiëntie van het broeikasgassysteem met 30 % te verhogen in vergelijking met bestaande typische systemen. Door het optimaliseren van de noodzakelijke niveaus van verlichting en straling tijdens de teelt en de vruchtvorming van kassenplanten, verliezen van de gebruikte materialen (water, kunstmest, enz.) evenals energiestroomverliezen (warmte, ventilatie, elektriciteit) in het teeltproces ook worden verminderd, aangezien de groei (productie) processen in planten voornamelijk afhankelijk zijn van het verlichtingsregime, maar al in bepaalde plantengevallen — van het spectrum van de lichtbron en de hoeveelheid lichtintensiteit. De belangrijkste activiteiten van het project zijn de analyse van de energie-efficiëntie van bestaande systemen en hun elementen, creatie van architectuur en wiskundige modellen voor technologische oplossingen van verschillende kassen, creatie en testen van nieuwe systeemknooppunten in gecontroleerde laboratoriumomstandigheden, waarbij de nadruk van RTU-laboratorium ligt op energie-efficiëntie en functionaliteit, en in LLU-laboratorium — op de intensiteit van de vorming van biologisch actieve stoffen in groenten in verschillende seizoenen en omstandigheden, voor het verkrijgen van gezonde groenten met een verhoogde biologische voedingswaarde. De ingenieurs van SIA "Eltex" nemen deel aan de verzameling van laboratoriumgegevens en de ontwikkeling van serresysteemarchitecturen, die de ontwikkeling mogelijk zullen maken van een technologie die geschikt is voor de behoeften van de markt, die aan het einde van het project ook zal worden getest in de omstandigheden van grote industriële kassen.Volgens de OESO (FOS-classificatie) komt het project overeen met "2.2. Elektrotechniek, elektronica en informatietechniek„en”4.4. Landbouwbiotechnologie"De onderzoekscategorie van het project is experimentele ontwikkeling en industrieel onderzoek. Het project is niet-economisch. Het geplande bedrag van de EFRO-steun voor het project bedraagt 510 000 EUR. De duur van het project bedraagt 36 maanden vanaf de datum van ondertekening van het contract of de overeenkomst inzake de uitvoering van het project, te rekenen vanaf 1.3.2017.Belangrijkste resultaten: 1)Wide meetgegevens over de interactie van de elektrische kas, het klimaat, het water en het vermogen, evenals de fotobiologische parameters in het geval van verschillende lichtbronnen in een dwarsdoorsnede van ten minste één jaar (3-4 aanplantcycli) zullen worden verkregen, met inbegrip van meetgegevens voor openbare beschikbaarheid. 2)Aanbevelingen zijn ontwikkeld voor Letse industriële kassengebruikers, systeemfabrikanten, afhankelijk van het systeem dat ze gebruiken en bronnen van kunstmatige verlichting.3) Er is een nieuwe technologie ontwikkeld — umol managementsysteem en infrastructuurarchitectuur en basisprincipes voor de bouw van nieuwe kassen, waardoor 30 % van de elektriciteit kan worden bespaard zonder de productiviteit van de installatie te verminderen. (Dutch)
28 November 2021
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Nell'ambito del progetto saranno sviluppati nuovi metodi di gestione fotobiologica per i processi di produzione esistenti nelle serre, metodi di audit per valutare l'efficienza dei parametri energetici e ambientali. Durante il progetto saranno sviluppati, implementati e testati nuovi dispositivi per sistemi di misurazione e controllo. Utilizzando i nuovi algoritmi Bio-Energy System, che saranno testati e confrontati con diverse fonti di illuminazione in condizioni reali di serra, si prevede di ottenere un risparmio di energia elettrica fino al 30 % garantendo allo stesso tempo lo stesso rendimento di crescita. Sarà esaminato come l'illuminazione supplementare influenzi l'intensità della formazione di sostanze biologicamente attive negli ortaggi (pomodori, cetrioli, insalate) in diverse stagioni. ecosistemi serra, efficienza energetica, sistemi di gestione delle TIC, sistemi di illuminazione, sensori, ortaggi, sostanze biologicamente attive. Nel quadro del progetto verrà sviluppata una base di misurazione scientifica e verrà sviluppato un nuovo sistema di gestione "umol" per garantire un ambiente di coltivazione vegetale controllato in serre industriali e di produzione in cui vengono coltivate varie colture (pomodori, cetrioli, lattuga, fragole, fiori) utilizzando nuovi algoritmi di controllo intelligenti che garantiranno una produzione efficiente sotto il profilo energetico e rispettoso dell'ambiente, compresi nuovi sensori per il monitoraggio dei parametri di consumo di energia elettrica e di crescita delle piante, nonché nuovi strumenti di analisi e ottimizzazione per aumentare l'efficienza complessiva del sistema a effetto serra del 30 % rispetto ai sistemi tipici esistenti. Ottimizzando i necessari livelli di illuminazione e irraggiamento durante la coltivazione e la fruttificazione delle piante in serra, si riducono anche le perdite di materiali utilizzati (acqua, fertilizzanti, ecc.) e le perdite di flusso energetico (calore, ventilazione, elettricità) nel processo di coltivazione, poiché i processi di crescita (produzione) nelle piante dipendono principalmente dal regime di illuminazione, ma già in alcuni casi — dallo spettro della sorgente luminosa e dalla quantità di intensità luminosa. Le principali attività del progetto sono l'analisi dell'efficienza energetica dei sistemi esistenti e dei loro elementi, creazione di architetture e modelli matematici per soluzioni tecnologiche di varie serre, creazione e sperimentazione di nuovi nodi di sistema in condizioni di laboratorio controllate, dove il laboratorio RTU si concentra principalmente sull'efficienza energetica e la funzionalità, e in laboratorio LLU — sull'intensità della formazione di sostanze biologicamente attive negli ortaggi in diverse stagioni e condizioni, per ottenere verdure sane con maggiore valore nutrizionale biologico. Gli ingegneri di SIA "Eltex" partecipano alla raccolta di dati di laboratorio e alla creazione di architetture di sistema serre, che consentiranno lo sviluppo di una tecnologia adatta alle esigenze del mercato, che alla fine del progetto è prevista anche per essere testata nelle condizioni di grandi serre industriali. Secondo la classificazione OCSE (classificazione FOS), il progetto corrisponde a "2.2. Ingegneria elettrica, elettronica e ingegneria dell'informazione"e"4.4. Biotecnologie agricole"La categoria di ricerca del progetto è lo sviluppo sperimentale e la ricerca industriale. Il progetto non è economico. L'importo previsto del sostegno FESR per il progetto è di 510 000 EUR. La durata del progetto è di 36 mesi dalla data della firma del contratto o della convenzione sull'attuazione del progetto, a partire dall'1.3.2017.Risultati principali: 1)Si otterranno ampi dati di misura sull'interazione della serra elettrica, del clima, dell'acqua e dell'energia, nonché parametri fotobiologici nel caso di diverse sorgenti luminose in una sezione trasversale di almeno un anno (3-4 cicli di impianto), fornendo dati di misurazione per la disponibilità del pubblico. 2)Le raccomandazioni sono state sviluppate per gli utenti della serra industriale lettone, i produttori di sistemi, a seconda del sistema che utilizzano e delle fonti di illuminazione artificiale.3) È stata sviluppata una nuova tecnologia — sistema di gestione umol e architettura infrastrutturale e principi di base per la costruzione di nuove serre, che consente di risparmiare il 30 % dell'elettricità senza ridurre la produttività dell'impianto. (Italian)
11 January 2022
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En el marco del proyecto, se desarrollarán nuevos métodos de gestión fotobiológica para los procesos de producción existentes en invernaderos, métodos de auditoría para evaluar la eficiencia de los parámetros energéticos y ambientales. Durante el proyecto, se desarrollarán, implementarán y probarán nuevos dispositivos para sistemas de medición y control. Utilizando los nuevos algoritmos del Sistema de Bioenergía, que serán probados y comparados con diferentes fuentes de iluminación en condiciones reales de invernadero, se prevé lograr un ahorro de electricidad de hasta un 30 %, garantizando al mismo tiempo el mismo rendimiento de crecimiento. Se examinará cómo la iluminación adicional afecta a la intensidad de la formación de sustancias biológicamente activas en vegetales (tomates, pepinos, ensaladas) en diferentes estaciones. en el marco del proyecto, se desarrollará una base de medición científica y se desarrollará un nuevo sistema de gestión «umol» para garantizar un entorno de cultivo controlado de las plantas en invernaderos industriales y de producción donde se cultivan diversos cultivos (tomates, pepinos, lechugas, fresas, flores) utilizando nuevos algoritmos de control inteligentes que garanticen una producción eficiente desde el punto de vista energético y respetuoso con el medio ambiente, incluidos nuevos sensores para monitorear el consumo de electricidad y los parámetros de crecimiento de las plantas, así como nuevas herramientas de análisis y optimización para aumentar la eficiencia global del sistema de invernadero en un 30 % en comparación con los sistemas típicos existentes. Al optimizar los niveles necesarios de iluminación y radiación durante el cultivo y fructificación de las plantas de invernadero, también se reducen las pérdidas de los materiales utilizados (agua, fertilizantes, etc.) así como las pérdidas de flujo de energía (calor, ventilación, electricidad) en el proceso de cultivo, ya que los procesos de crecimiento (producción) en las plantas dependen principalmente del régimen de iluminación, pero ya en ciertos casos de planta — del espectro de la fuente de iluminación y de la intensidad de la luz. Las principales actividades del proyecto son el análisis de la eficiencia energética de los sistemas existentes y sus elementos, creación de modelos arquitectónicos y matemáticos para soluciones tecnológicas de diversos invernaderos, creación y ensayo de nuevos nodos del sistema en condiciones de laboratorio controladas, donde el foco principal del laboratorio RTU es la eficiencia energética y la funcionalidad, y en el laboratorio LLU — en la intensidad de la formación de sustancias biológicamente activas en vegetales en diferentes estaciones y condiciones, para obtener vegetales sanos con mayor valor biológico nutricional. Los ingenieros de SIA "Eltex" participan en la recogida de datos de laboratorio y en la creación de arquitecturas de sistemas de invernadero, lo que permitirá el desarrollo de una tecnología adecuada a las necesidades del mercado, que al final del proyecto también está prevista para ser probada en las condiciones de grandes invernaderos industriales.De acuerdo con la clasificación de la OCDE (FOS), el proyecto corresponde a "2.2. Ingeniería eléctrica, electrónica e ingeniería de la información’y'4.4. Biotecnología agrícola"La categoría de investigación del proyecto es el desarrollo experimental y la investigación industrial. El proyecto no es económico. El importe previsto de la ayuda del FEDER para el proyecto es de 510 000 EUR. La duración del proyecto es de 36 meses a partir de la fecha de firma del contrato o acuerdo sobre la ejecución del proyecto, a partir del 1.3.2017.Resultados principales: 1)Se obtendrán datos de medición amplios sobre la interacción del invernadero eléctrico, clima, agua y energía, así como parámetros fotobiológicos en el caso de diferentes fuentes de luz en una sección transversal de al menos un año (3-4 ciclos de plantación), proporcionando datos de medición para la disponibilidad pública. 2)Se han desarrollado recomendaciones para los usuarios de invernaderos industriales letones, los fabricantes de sistemas, dependiendo del sistema que utilicen y las fuentes de iluminación artificial.3) Se ha desarrollado una nueva tecnología — sistema de gestión de umol y arquitectura de infraestructuras y principios básicos para la construcción de nuevos invernaderos, lo que permite ahorrar el 30 % de la electricidad sin reducir la productividad de la planta. (Spanish)
12 January 2022
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Projekti raames töötatakse välja uued fotobioloogilised juhtimismeetodid kasvuhoonete olemasolevate tootmisprotsesside jaoks, energia ja keskkonnatoime hindamise auditeerimismeetodid. Projekti käigus töötatakse välja, rakendatakse ja katsetatakse uusi mõõte- ja kontrollisüsteemi seadmeid. Kasutades uusi bioenergiasüsteemi algoritme, mida katsetatakse ja võrreldakse erinevate valgusallikatega reaalsetes kasvuhoonetingimustes, on kavas saavutada elektrisääst kuni 30 %, tagades samal ajal sama kasvumäära. Uuritakse, kuidas täiendav valgustus mõjutab bioloogiliselt aktiivsete ainete moodustumist köögiviljades (tomatid, kurgid, salatid) erinevatel aastaaegadel. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. SIA „Eltexi“ insenerid osalevad ka laboriandmete hankimisel ja kasvuhoonete süsteemiarhitektuuride ehitamisel, mis võimaldab välja töötada turuvajadustele vastava tehnoloogia, mille lõplik versioon on projekti lõpus kavas katsetada suurte tööstuslike kasvuhoonete tingimustes. Elektrotehnika, elektroonika ja infotehnika„ja“4.4. Põllumajanduslik biotehnoloogia".Projekti uurimiskategooria on tootearendus ja rakendusuuringud. Projekt ei ole seotud majandustegevusega. (Estonian)
3 August 2022
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Įgyvendinant projektą bus sukurti nauji fotobiologinio valdymo metodai esamiems gamybos procesams šiltnamiuose, bus sukurti energijos vartojimo ir aplinkosauginio veiksmingumo vertinimo audito metodai. Projekto metu bus kuriami, diegiami ir išbandomi nauji matavimo ir kontrolės sistemos prietaisai. Naudojant naujus bioenergijos sistemos algoritmus, kurie bus išbandyti ir palyginti su skirtingais apšvietimo šaltiniais realiomis šiltnamio sąlygomis, planuojama sutaupyti iki 30 % elektros energijos, kartu užtikrinant tokį patį augimo tempą. Bus ištirta, kaip papildomas apšvietimas įtakoja biologiškai aktyvių medžiagų (pomidorų, agurkų, salotų) susidarymo intensyvumą įvairiais sezonais. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. SIA „Eltex“ inžinieriai taip pat dalyvauja laboratorinių duomenų įsigijimui ir šiltnamių sistemos architektūros kūrimui, kurie leis kurti rinkos poreikius atitinkančią technologiją, kurios galutinę versiją planuojama išbandyti didelių pramoninių šiltnamių sąlygomis projekto pabaigoje. Elektrotechnika, elektronika ir informacijos inžinerija„ir“4.4. Žemės ūkio biotechnologijos". Projekto mokslinių tyrimų kategorija yra eksperimentinė plėtra ir pramoniniai tyrimai. Projektas nėra susijęs su ekonomine veikla. (Lithuanian)
3 August 2022
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U okviru projekta razvit će se nove fotobiološke metode upravljanja postojećim proizvodnim procesima u staklenicima te će se razviti metode revizije energetske i ekološke učinkovitosti. Tijekom projekta razvit će se, implementirati i testirati novi mjerni i upravljački sustavi. Korištenjem novih algoritama bioenergetskog sustava, koji će se testirati i uspoređivati s različitim izvorima rasvjete u stvarnim uvjetima staklenika, planira se ostvariti uštedu električne energije do 30 % uz osiguravanje iste stope rasta. Ispitat će se kako dodatna rasvjeta utječe na intenzitet formiranja biološki aktivnih tvari u povrću (rajčice, krastavci, salate) u različitim godišnjim dobima. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Inženjeri SIA „Eltex” također sudjeluju u prikupljanju laboratorijskih podataka i izgradnji arhitektura staklenika, što će omogućiti razvoj tehnologije prikladne za potrebe tržišta, čija se konačna verzija planira testirati u uvjetima velikih industrijskih staklenika na kraju projekta. Elektrotehnika, elektronika i informacijsko inženjerstvo„i”4.4. Poljoprivredna biotehnologija". Istraživačka kategorija projekta je eksperimentalni razvoj i industrijsko istraživanje. Projekt nije povezan s gospodarskom djelatnošću. (Croatian)
3 August 2022
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Στο πλαίσιο του έργου θα αναπτυχθούν νέες μέθοδοι φωτοβιολογικής διαχείρισης για τις υφιστάμενες παραγωγικές διεργασίες σε θερμοκήπια, θα αναπτυχθούν μέθοδοι ελέγχου για την αξιολόγηση της ενεργειακής και περιβαλλοντικής απόδοσης. Κατά τη διάρκεια του έργου θα αναπτυχθούν, θα εφαρμοστούν και θα δοκιμαστούν νέες διατάξεις συστημάτων μέτρησης και ελέγχου. Με τη χρήση των νέων αλγορίθμων του Συστήματος Βιοενέργειας, οι οποίοι θα δοκιμαστούν και θα συγκριθούν με διαφορετικές πηγές φωτισμού υπό πραγματικές συνθήκες θερμοκηπίου, σχεδιάζεται η επίτευξη εξοικονόμησης ηλεκτρικής ενέργειας έως και 30 %, εξασφαλίζοντας παράλληλα τον ίδιο ρυθμό ανάπτυξης. Θα εξεταστεί πώς ο πρόσθετος φωτισμός επηρεάζει την ένταση σχηματισμού βιολογικώς δραστικών ουσιών στα λαχανικά (ντομάτες, αγγούρια, σαλάτες) σε διαφορετικές εποχές. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Οι μηχανικοί της SIA «Eltex» συμμετέχουν επίσης στην απόκτηση εργαστηριακών δεδομένων και στην κατασκευή αρχιτεκτονικών συστημάτων θερμοκηπίων, που θα επιτρέψουν την ανάπτυξη τεχνολογίας κατάλληλης για ανάγκες της αγοράς, η τελική έκδοση της οποίας προγραμματίζεται να δοκιμαστεί σε συνθήκες μεγάλων βιομηχανικών θερμοκηπίων στο τέλος του έργου. Ηλεκτρολόγων μηχανικών, ηλεκτρονικών και μηχανικών πληροφοριών«και»4.4. Η κατηγορία έρευνας του έργου είναι η πειραματική ανάπτυξη και η βιομηχανική έρευνα. Το έργο δεν συνδέεται με οικονομική δραστηριότητα. (Greek)
3 August 2022
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V rámci projektu sa vyvinú nové fotobiologické metódy riadenia existujúcich výrobných procesov v skleníkoch, metódy auditu energetického a environmentálneho správania. Počas projektu budú vyvinuté, implementované a testované nové meracie a kontrolné zariadenia. Pomocou nových algoritmov bioenergetického systému, ktoré sa budú testovať a porovnávať s rôznymi zdrojmi osvetlenia v reálnych skleníkových podmienkach, sa plánuje dosiahnuť úspory elektrickej energie až do výšky 30 % a zároveň zabezpečiť rovnakú mieru rastu. Preskúma sa, ako dodatočné osvetlenie ovplyvňuje intenzitu tvorby biologicky účinných látok v zelenine (rajčiny, uhorky, šaláty) v rôznych ročných obdobiach. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Inžinieri SIA „Eltex“ sa tiež zúčastňujú na získavaní laboratórnych údajov a budovaní architektúry skleníkových systémov, čo umožní vývoj technológie vhodnej pre potreby trhu, ktorej konečná verzia sa plánuje testovať v podmienkach veľkých priemyselných skleníkov na konci projektu. Elektrotechnika, elektronika a informačné inžinierstvo„a“4.4. Poľnohospodárska biotechnológia".Kategóriou výskumu projektu je experimentálny vývoj a priemyselný výskum. Projekt nie je spojený s hospodárskou činnosťou. (Slovak)
3 August 2022
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Hankkeen puitteissa kehitetään uusia fotobiologisia hallintamenetelmiä kasvihuoneiden olemassa olevia tuotantoprosesseja varten energia- ja ympäristötehokkuuden arviointia varten. Projektin aikana kehitetään, otetaan käyttöön ja testataan uusia mittaus- ja ohjausjärjestelmiä. Uusilla bioenergiajärjestelmän algoritmeilla, joita testataan ja verrataan erilaisiin valaistuslähteisiin todellisissa kasvihuoneolosuhteissa, on tarkoitus saavuttaa jopa 30 prosentin säästö sähköntuotannossa samalla kun varmistetaan sama kasvunopeus. Tutkitaan, miten lisävalaistus vaikuttaa biologisesti vaikuttavien aineiden muodostumisen voimakkuuteen vihanneksissa (tomaatit, kurkut, salaatit) eri vuodenaikoina. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. SIA ”Eltex” insinöörit osallistuvat myös laboratoriotietojen hankintaan ja kasvihuonejärjestelmäarkkitehtuurien rakentamiseen, mikä mahdollistaa markkinoiden tarpeisiin soveltuvan teknologian kehittämisen, jonka lopullinen versio on tarkoitus testata suurten teollisuuskasvihuoneiden olosuhteissa hankkeen lopussa. Sähkötekniikka, elektroniikka ja tietotekniikka”ja”4.4. Maatalouden biotekniikka. Hankkeen tutkimuskategoria on kokeellinen kehittäminen ja teollinen tutkimus. Hanke ei liity taloudelliseen toimintaan. (Finnish)
3 August 2022
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W ramach projektu opracowane zostaną nowe metody zarządzania fotobiologicznego dla istniejących procesów produkcyjnych w szklarniach, metody audytu w zakresie oceny efektywności energetycznej i środowiskowej. W trakcie realizacji projektu zostaną opracowane, wdrożone i przetestowane nowe urządzenia pomiarowe i kontrolne. Przy użyciu nowych algorytmów Bio-Energy System, które będą testowane i porównywane z różnymi źródłami oświetlenia w rzeczywistych warunkach szklarniowych, planuje się osiągnięcie oszczędności energii elektrycznej do 30 % przy jednoczesnym zapewnieniu tej samej stopy wzrostu. Zostanie zbadane, jak dodatkowe oświetlenie wpływa na intensywność powstawania substancji biologicznie czynnych w warzywach (pomidory, ogórki, sałatki) w różnych porach roku. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Inżynierowie SIA „Eltex” uczestniczą również w pozyskiwaniu danych laboratoryjnych i budowaniu architektury systemu szklarniowego, co pozwoli na rozwój technologii dostosowanej do potrzeb rynku, której ostateczna wersja ma być testowana w warunkach dużych szklarni przemysłowych pod koniec projektu. Elektrotechnika, elektronika i inżynieria informacyjna„i”4.4. Biotechnologia rolnicza".Kategoria badawcza projektu to eksperymentalne prace rozwojowe i badania przemysłowe. Projekt nie jest związany z działalnością gospodarczą. (Polish)
3 August 2022
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A projekt keretében új fotobiológiai irányítási módszereket dolgoznak ki az üvegházak meglévő termelési folyamataira vonatkozóan, az energia- és környezeti teljesítményértékelés ellenőrzési módszereit. A projekt során új mérő- és vezérlőrendszereket fejlesztenek ki, valósítanak meg és tesztelnek. A bioenergia-rendszer új algoritmusainak használatával, amelyeket valós üvegházviszonyok között tesztelnek és összehasonlítanak a különböző fényforrásokkal, a tervek szerint akár 30%-os villamosenergia-megtakarítást érnek el, miközben ugyanazt a növekedési ütemet biztosítják. Meg kell vizsgálni, hogy a további világítás hogyan befolyásolja a biológiailag aktív anyagok kialakulásának intenzitását a zöldségekben (paradicsom, uborka, saláták) a különböző évszakokban. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. A SIA „Eltex” mérnökei szintén részt vesznek a laboratóriumi adatok beszerzésében és az üvegházrendszer-architektúrák építésében, ami lehetővé teszi a piaci igényeknek megfelelő technológia kifejlesztését, amelynek végleges változatát a projekt végén nagy ipari üvegházakban fogják tesztelni. Elektrotechnika, elektronika és informatika„és”4.4. Mezőgazdasági biotechnológia".A projekt kutatási kategóriája a kísérleti fejlesztés és az ipari kutatás. A projekt nem kapcsolódik gazdasági tevékenységhez. (Hungarian)
3 August 2022
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V rámci projektu budou vyvinuty nové metody fotobiologického řízení stávajících výrobních procesů ve sklenících, metody auditu energetického a environmentálního hodnocení. V průběhu projektu budou vyvinuta, implementována a testována nová měřicí a řídicí zařízení. S využitím nových algoritmů bioenergetického systému, které budou testovány a porovnány s různými zdroji osvětlení za reálných skleníkových podmínek, se plánuje dosáhnout úspor elektrické energie až o 30 % a zároveň zajistit stejnou míru růstu. Bude zkoumáno, jak další osvětlení ovlivňuje intenzitu tvorby biologicky aktivních látek v zelenině (rajčata, okurky, saláty) v různých ročních obdobích. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Inženýři SIA „Eltex“ se také podílejí na získávání laboratorních dat a budování architektury skleníkového systému, což umožní vývoj technologie vhodné pro potřeby trhu, jejíž konečná verze se plánuje testovat v podmínkách velkých průmyslových skleníků na konci projektu. Elektrotechnika, elektronika a informační technika„a“4.4. Zemědělská biotechnologie".Kategorií výzkumu projektu je experimentální vývoj a průmyslový výzkum. Projekt nesouvisí s hospodářskou činností. (Czech)
3 August 2022
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Faoi chuimsiú an tionscadail, forbrófar modhanna bainistíochta fóta-bhitheolaíocha nua le haghaidh na bpróiseas táirgthe atá ann cheana i dtithe gloine, déanfar modhanna iniúchta don mheastóireacht ar fheidhmíocht fuinnimh agus chomhshaoil a fhorbairt. Le linn an tionscadail déanfar feistí córais tomhais agus rialaithe nua a fhorbairt, a chur chun feidhme agus a thástáil. Ag baint úsáide as algartaim nua an Chórais Bhithfhuinnimh, a dhéanfar a thástáil agus a chur i gcomparáid le foinsí soilsithe éagsúla faoi fhíordhálaí ceaptha teasa, tá sé beartaithe coigilteas leictreachais suas le 30 % a bhaint amach agus an ráta fáis céanna á áirithiú ag an am céanna. Déanfar scrúdú ar an gcaoi a mbíonn tionchar ag soilsiú breise ar dhéine foirmiú substaintí gníomhacha bitheolaíocha i nglasraí (trátaí, cucumbers, sailéid) i séasúir éagsúla. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Tá innealtóirí SIA “Eltex” ag glacadh páirte freisin i bhfáil sonraí saotharlainne agus i dtógáil ailtireachtaí córais cheaptha teasa, rud a cheadóidh teicneolaíocht atá oiriúnach do riachtanais an mhargaidh a fhorbairt, a bhfuil sé beartaithe an leagan deiridh de a thástáil i gcoinníollacha tithe gloine tionsclaíocha móra ag deireadh an tionscadail. Innealtóireacht leictreach, leictreonaic agus innealtóireacht faisnéise“agus”4.4. Biteicneolaíocht talmhaíochta".Is forbairt thurgnamhach agus taighde tionsclaíoch é catagóir taighde... (Irish)
3 August 2022
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V okviru projekta bodo razvite nove metode fotobiološkega upravljanja za obstoječe proizvodne procese v rastlinjakih, metode presoje energetske in okoljske učinkovitosti. Med projektom se bodo razvijale, izvajale in preskušale nove merilne in kontrolne naprave. Z uporabo novih algoritmov Bio-Energy System, ki bodo preskušeni in primerjani z različnimi svetlobnimi viri v dejanskih razmerah v rastlinjakih, se načrtuje do 30-odstotni prihranek električne energije ob hkratnem zagotavljanju enake stopnje rasti. Preučili bomo, kako dodatna osvetlitev vpliva na intenzivnost tvorbe biološko aktivnih snovi v zelenjavi (paradižnik, kumare, solate) v različnih letnih časih. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Inženirji SIA „Eltex“ sodelujejo tudi pri pridobivanju laboratorijskih podatkov in gradnji arhitektur sistemov toplogrednih plinov, kar bo omogočilo razvoj tehnologije, primerne za potrebe trga, katere končna različica je načrtovana za testiranje v pogojih velikih industrijskih rastlinjakov ob koncu projekta. Elektrotehniko, elektroniko in informatiko„in“4.4. Kmetijska biotehnologija".Raziskovalna kategorija projekta je eksperimentalni razvoj in industrijske raziskave. Projekt ni povezan z gospodarsko dejavnostjo. (Slovenian)
3 August 2022
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В рамките на проекта ще бъдат разработени нови методи за фотобиологично управление на съществуващите производствени процеси в оранжерии, методи за одит за оценка на енергийните и екологичните показатели. По време на проекта ще бъдат разработени, внедрени и изпитани нови измервателни и контролни устройства. Като се използват новите алгоритми на биоенергийната система, които ще бъдат тествани и сравнявани с различни източници на осветление при реални условия на парникови газове, се планира да се постигне икономия на електроенергия до 30 %, като същевременно се гарантира еднакъв темп на растеж. Ще бъде разгледано как допълнителното осветление влияе върху интензивността на образуване на биологично активни вещества в зеленчуците (домати, краставици, салати) в различни сезони. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Инженерите на SIA „Eltex“ също участват в придобиването на лабораторни данни и изграждането на архитектури на оранжерии, които ще позволят разработването на технология, подходяща за нуждите на пазара, чиято окончателна версия се планира да бъде тествана в условия на големи промишлени оранжерии в края на проекта. Електротехника, електроника и информационно инженерство„и“4.4. Селскостопанска биотехнология".Проучвателната категория на проекта е експериментална разработка и индустриални изследвания. Проектът не е свързан с икономическата дейност. (Bulgarian)
3 August 2022
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Fi ħdan il-qafas tal-proġett metodi ġodda ta’ ġestjoni fotobijoloġika għall-proċessi ta’ produzzjoni eżistenti fis-serer, se jiġu żviluppati metodi ta’ verifika għall-evalwazzjoni tal-prestazzjoni tal-enerġija u ambjentali. Matul il-proġett se jiġu żviluppati, implimentati u ttestjati apparati ġodda tas-sistema ta’ kejl u kontroll. Bl-użu tal-algoritmi l-ġodda tas-Sistema Bijoenerġija, li se jiġu ttestjati u mqabbla ma’ sorsi tat-tidwil differenti f’kundizzjonijiet reali ta’ serra, huwa ppjanat li jinkiseb iffrankar tal-elettriku sa 30 % filwaqt li tiġi żgurata l-istess rata ta’ tkabbir. Se jiġi eżaminat kif it-tidwil addizzjonali jinfluwenza l-intensità tal-formazzjoni ta’ sustanzi bijoloġikament attivi fil-ħxejjex (tadam, ħjar, insalati) fi staġuni differenti. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. L-inġiniera tal-SIA “Eltex” qed jipparteċipaw ukoll fl-akkwist ta’ data tal-laboratorju u l-bini ta’ arkitetturi tas-sistema tas-serra, li se jippermettu l-iżvilupp ta’ teknoloġija adattata għall-ħtiġijiet tas-suq, li l-verżjoni finali tagħha hija ppjanata li tiġi ttestjata f’kundizzjonijiet ta’ serer industrijali kbar fi tmiem il-proġett. Inġinerija elettrika, l-elettronika u l-inġinerija tal-informazzjoni“u”4.4. Il-bijoteknoloġija agrikola". Il-kategorija tar-riċerka talproġett hija żvilupp sperimentali u riċerka industrijali. Il-proġett mhuwiex marbut mal-attività ekonomika. (Maltese)
3 August 2022
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No âmbito do projeto, serão desenvolvidos novos métodos de gestão fotobiológica para os processos de produção existentes em estufas, métodos de auditoria para a avaliação do desempenho energético e ambiental. Durante o projeto, serão desenvolvidos, implementados e testados novos dispositivos de sistema de medição e controlo. Utilizando os novos algoritmos do Sistema Bioenergia, que serão testados e comparados a diferentes fontes de iluminação em condições reais de estufa, prevê-se uma poupança de eletricidade de até 30 %, assegurando simultaneamente a mesma taxa de crescimento. Examinar-se-á como a iluminação adicional influencia a intensidade de formação de substâncias biologicamente ativas em vegetais (tomates, pepinos, saladas) em diferentes estações. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Os engenheiros da SIA «Eltex» também participam na aquisição de dados laboratoriais e na construção de arquiteturas de sistemas de estufa, o que permitirá o desenvolvimento de uma tecnologia adequada às necessidades do mercado, cuja versão final está prevista para ser testada em condições de grandes estufas industriais no final do projeto. Engenharia elétrica, eletrónica e informática«e»4.4. Biotecnologia agrícola".A categoria de investigação do projeto é o desenvolvimento experimental e a investigação industrial. O projeto não está ligado à atividade económica. (Portuguese)
3 August 2022
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Inden for rammerne af projektet vil der blive udviklet nye fotobiologiske forvaltningsmetoder for eksisterende produktionsprocesser i drivhuse, revisionsmetoder til evaluering af energi- og miljøpræstationer. Under projektet vil der blive udviklet, implementeret og testet nye måle- og styringssystemer. Ved hjælp af de nye algoritmer i Bio-Energy System, som vil blive testet og sammenlignet med forskellige belysningskilder under reelle drivhusforhold, er det planlagt at opnå elbesparelser på op til 30 % og samtidig sikre samme vækstrate. Det vil blive undersøgt, hvordan yderligere belysning påvirker dannelsen af biologisk aktive stoffer i grøntsager (tomater, agurker, salater) i forskellige årstider. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Ingeniørerne i SIA "Eltex" deltager også i erhvervelsen af laboratoriedata og opbygningen af drivhussystemarkitekturer, som vil gøre det muligt at udvikle en teknologi, der er egnet til markedsbehov, og hvis endelige version efter planen skal afprøves under forhold med store industrielle drivhuse ved projektets afslutning. Elektroteknik, elektronik og informationsteknik"og"4.4. Landbrugsbioteknologi".Projektets forskningskategori er eksperimentel udvikling og industriel forskning. Projektet er ikke knyttet til økonomisk aktivitet. (Danish)
3 August 2022
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În cadrul proiectului, vor fi elaborate noi metode de management fotobiologic pentru procesele de producție existente în sere, vor fi elaborate metode de audit pentru evaluarea performanței energetice și de mediu. În timpul proiectului vor fi dezvoltate, implementate și testate noi dispozitive ale sistemului de măsurare și control. Folosind noii algoritmi Bio-Energy System, care vor fi testați și comparați cu diferite surse de iluminat în condiții reale de seră, se preconizează realizarea unor economii de energie electrică de până la 30 %, asigurând în același timp aceeași rată de creștere. Se va examina modul în care iluminatul suplimentar influențează intensitatea formării substanțelor biologic active în legume (tomate, castraveți, salate) în diferite sezoane. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Inginerii SIA „Eltex” participă, de asemenea, la achiziționarea de date de laborator și la construirea de arhitecturi ale sistemelor de seră, ceea ce va permite dezvoltarea unei tehnologii adecvate nevoilor pieței, a cărei versiune finală este planificată să fie testată în condiții de sere industriale mari la sfârșitul proiectului. Inginerie electrică, electronică și informatică„și”4.4. Biotehnologia agricolă".Categoria de cercetare a proiectului este dezvoltarea experimentală și cercetarea industrială. Proiectul nu este legat de activitatea economică. (Romanian)
3 August 2022
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Inom ramen för projektet kommer nya fotobiologiska förvaltningsmetoder för befintliga produktionsprocesser i växthus att utvecklas. Under projektet kommer nya mät- och styranordningar att utvecklas, implementeras och testas. Med hjälp av de nya algoritmerna för Bio-Energy System, som kommer att testas och jämföras med olika ljuskällor under verkliga växthusförhållanden, planeras elbesparingar på upp till 30 % samtidigt som samma tillväxttakt säkerställs. Det kommer att undersökas hur ytterligare belysning påverkar bildningsintensiteten av biologiskt aktiva substanser i grönsaker (tomater, gurkor, sallader) under olika årstider. Greenhouse ecosystems, energy-efficiency, ICT control systems, lighting systems, sensors, vegetables, biologically active substances.The project will create a scientific measurement base and develop a new control system for “uMol” to ensure a controlled plant growing environment in industrial and industrial greenhouses where different crops are cultivated (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production in industrial and production greenhouses (tomatoes, cucumbers, salads, strawberries, flowers), using new intelligent management algorithms that will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of existing plant parameters, as well as for new sensors of plant parameters, as well as for new sensors of energy, as well as for new systems of energy management, which will provide energy-friendly and environment-friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-efficient and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensory of 30 % of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including for increasing the efficiency of existing plant parameters, as well as for new sensors of the plant parameters, as well as for new intelligent management algorithms, which will provide energy-friendly and environmentally friendly production, including the efficiency of new plant parameters, as well as to increase the efficiency of new plant parameters, as well as new intellectual management algorithms, which will provide energy and environment-friendly production Optimising the required levels of lighting and radiation in the greenhouse plant growing and fruit production process also reduces losses of used materials (water, fertilisers, etc. ), as well as energy flow losses (heat, ventilation, electricity) in the cultivation process, because growth (production) processes in plants mainly depend on lighting mode, but already in specific plant cases – from lighting source spectrum and luminous intensity level in crop circles.The main project activities are energy efficiency analysis of existing systems and their elements in plants, architecture and mathematical substitutability in different laboratory conditions, the development of a high-level of economy in different plant conditions – the development of a variety of light sources and light intensity.The main project activities are the energy efficiency analysis of the existing systems and their elements, the design of the building of the existing systems in the laboratory, and the development of a controlled laboratory energy efficiency of the plant, in the case of plants, with the energy efficiency of the light source and the amount of light intensity. Ingenjörerna för SIA ”Eltex” deltar också i insamlingen av laboratoriedata och byggandet av växthussystemarkitekturer, vilket kommer att möjliggöra utveckling av en teknik som är lämplig för marknadens behov, vars slutliga version är planerad att testas i förhållanden med stora industriella växthus i slutet av projektet. Elektroteknik, elektronik och informationsteknik”och”4.4. Bioteknik inom jordbruket”.Projektets forskningskategori är experimentell utveckling och industriell forskning. Projektet är inte kopplat till ekonomisk verksamhet. (Swedish)
3 August 2022
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Āzenes iela 12 k-1, Rīga, LV-1048
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Strazdu iela 1, Jelgava, LV-3004
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Lielā iela 2, Jelgava, LV-3001
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Ciriša iela 1A - 23, Aglona, Aglonas pag., Preiļu nov., LV-5304
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Identifiers
1.1.1.1/16/A/261
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