ZOBAM system (Q3988783): Difference between revisions
Jump to navigation
Jump to search
(Changed an Item: Fixing summary) |
(Changed an Item: Adding English translations) |
||||||||||||||
Property / summary | |||||||||||||||
The project partners want to develop the ZOBAM system. This is an irrigation system for potatoes. This system is distinguished from regular irrigation systems by built-in intelligence (advanced control algorithms) that use sensor data to map potato growth parameters locally and optimise water ∓ nutrient feed for the plant. The system can achieve a water saving of 50 % and the more effective application of fertilisers can achieve a yield increase of up to about 40 %. In order to grow more potatoes per square metre with fewer raw materials, a drip hose irrigation system is applied to the ground above the potatoes, the ZOBAM system. This allows water savings of at least 50 % compared to current potato cultivation based on rain reel and spray gun. In addition, this system allows much more effective fertilisers to be applied directly into the ground in the right place. The process will be fully automated. Local conditions are monitored for each site on the potato field using sensors to be placed near the crop. This data is then returned to the central control system, which then regulates water and manure in such a way that the growth curve is continuously optimised. It is expected that a yield increase of about 40 % can be achieved. Over an annual cultivation of 8 million tonnes there is a significant increase in yield. The project aims to create a working and tested prototype of a complete ZOBAM system including automated control system. Tests will then be carried out on a practical scale using the prototype, which is expected to take about 2 years. In phase 1, a prototype for a few strips will first be designed, built and a growing season tested for a long time. With proven operation, this prototype will then be scaled up in phase 2, so that a full field can be tested. (English) | |||||||||||||||
Property / summary: The project partners want to develop the ZOBAM system. This is an irrigation system for potatoes. This system is distinguished from regular irrigation systems by built-in intelligence (advanced control algorithms) that use sensor data to map potato growth parameters locally and optimise water ∓ nutrient feed for the plant. The system can achieve a water saving of 50 % and the more effective application of fertilisers can achieve a yield increase of up to about 40 %. In order to grow more potatoes per square metre with fewer raw materials, a drip hose irrigation system is applied to the ground above the potatoes, the ZOBAM system. This allows water savings of at least 50 % compared to current potato cultivation based on rain reel and spray gun. In addition, this system allows much more effective fertilisers to be applied directly into the ground in the right place. The process will be fully automated. Local conditions are monitored for each site on the potato field using sensors to be placed near the crop. This data is then returned to the central control system, which then regulates water and manure in such a way that the growth curve is continuously optimised. It is expected that a yield increase of about 40 % can be achieved. Over an annual cultivation of 8 million tonnes there is a significant increase in yield. The project aims to create a working and tested prototype of a complete ZOBAM system including automated control system. Tests will then be carried out on a practical scale using the prototype, which is expected to take about 2 years. In phase 1, a prototype for a few strips will first be designed, built and a growing season tested for a long time. With proven operation, this prototype will then be scaled up in phase 2, so that a full field can be tested. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
Property / summary: The project partners want to develop the ZOBAM system. This is an irrigation system for potatoes. This system is distinguished from regular irrigation systems by built-in intelligence (advanced control algorithms) that use sensor data to map potato growth parameters locally and optimise water ∓ nutrient feed for the plant. The system can achieve a water saving of 50 % and the more effective application of fertilisers can achieve a yield increase of up to about 40 %. In order to grow more potatoes per square metre with fewer raw materials, a drip hose irrigation system is applied to the ground above the potatoes, the ZOBAM system. This allows water savings of at least 50 % compared to current potato cultivation based on rain reel and spray gun. In addition, this system allows much more effective fertilisers to be applied directly into the ground in the right place. The process will be fully automated. Local conditions are monitored for each site on the potato field using sensors to be placed near the crop. This data is then returned to the central control system, which then regulates water and manure in such a way that the growth curve is continuously optimised. It is expected that a yield increase of about 40 % can be achieved. Over an annual cultivation of 8 million tonnes there is a significant increase in yield. The project aims to create a working and tested prototype of a complete ZOBAM system including automated control system. Tests will then be carried out on a practical scale using the prototype, which is expected to take about 2 years. In phase 1, a prototype for a few strips will first be designed, built and a growing season tested for a long time. With proven operation, this prototype will then be scaled up in phase 2, so that a full field can be tested. (English) / qualifier | |||||||||||||||
point in time: 15 December 2021
|
Revision as of 06:19, 15 December 2021
Project Q3988783 in Netherlands
Language | Label | Description | Also known as |
---|---|---|---|
English | ZOBAM system |
Project Q3988783 in Netherlands |
Statements
236,060.4 Euro
0 references
623,673.448 Euro
0 references
37.85 percent
0 references
1 December 2016
0 references
1 December 2018
0 references
Maatschap W.Z.J. van Dalen en M.W. Kuipers
0 references
7754RJ
0 references
De projectpartners willen over gaan tot de ontwikkeling van het ZOBAM systeem. dit is een irrigatiesysteem voor aardappelen. Dit systeem onderscheidt zich van reguliere irrigatiesystemen door ingebouwde intelligentie (geavanceerde regelalgoritmes) die via sensordata de aardappel groeiparameters lokaal in kaart brengen en water & voedingsstoffen toevoer voor de plant optimaliseren. Met het systeem kan een waterbesparing van 50% worden behaald en door het effectiever inbrengen van meststoffen kan een opbrengstverhoging van tot ongeveer 40% worden gerealiseerd. Om meer aardappelen per vierkante meter te kunnen telen met minder grondstoffen, wordt een druppelslang irrigatiesysteem in de grond boven de aardappelen wordt aangebracht, het ZOBAM systeem. Hiermee kan een waterbesparing van minimaal 50% ten opzichte van de huidige aardappelteelt op basis van beregening met een regenhaspel en spuitkanon plaatsvinden. Bovendien kunnen via dit systeem veel effectiever meststoffen direct op de juiste plek in de grond ingebracht worden. Het proces zal geheel worden geautomatiseerd. Met behulp van in de buurt van het gewas te plaatsen sensoren worden voor elke plaats op het aardappelveld de lokale omstandigheden gemonitord. Vervolgens worden deze gegevens teruggevoerd naar de centrale aansturing die vervolgens water en mest toevoer zo regelt dat de groeicurve continu wordt geoptimaliseerd. De verwachting is dat hiermee een opbrengstverhoging tot ongeveer 40% gerealiseerd kan worden. Over een jaarlijkse teelt van 8 miljoen ton is een behoorlijke toename van de opbrengst. Het project is bedoeld om te komen tot een werkend en getest prototype van een compleet ZOBAM systeem inclusief geautomatiseerd regelsysteem. Vervolgens zullen met behulp van het prototype proeven op praktijkschaal worden uitgevoerd, die naar verwachting ca. 2 jaar tijd in beslag zullen nemen. In fase 1 zal eerst een prototype voor enkele stroken ontworpen, gebouwd en een teeltseizoen lang getest worden. Bij bewezen werking zal dit prototype vervolgens in fase 2 opgeschaald worden, zodat een volledig veld getest kan worden. (Dutch)
0 references
The project partners want to develop the ZOBAM system. This is an irrigation system for potatoes. This system is distinguished from regular irrigation systems by built-in intelligence (advanced control algorithms) that use sensor data to map potato growth parameters locally and optimise water ∓ nutrient feed for the plant. The system can achieve a water saving of 50 % and the more effective application of fertilisers can achieve a yield increase of up to about 40 %. In order to grow more potatoes per square metre with fewer raw materials, a drip hose irrigation system is applied to the ground above the potatoes, the ZOBAM system. This allows water savings of at least 50 % compared to current potato cultivation based on rain reel and spray gun. In addition, this system allows much more effective fertilisers to be applied directly into the ground in the right place. The process will be fully automated. Local conditions are monitored for each site on the potato field using sensors to be placed near the crop. This data is then returned to the central control system, which then regulates water and manure in such a way that the growth curve is continuously optimised. It is expected that a yield increase of about 40 % can be achieved. Over an annual cultivation of 8 million tonnes there is a significant increase in yield. The project aims to create a working and tested prototype of a complete ZOBAM system including automated control system. Tests will then be carried out on a practical scale using the prototype, which is expected to take about 2 years. In phase 1, a prototype for a few strips will first be designed, built and a growing season tested for a long time. With proven operation, this prototype will then be scaled up in phase 2, so that a full field can be tested. (English)
15 December 2021
0 references
Identifiers
OP-2014-2023-Noord-OPSNN0125
0 references