Energy modernisation of pityer Csárda in light of 21st century expectations (Q3934979): Difference between revisions
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One of the key points in maintaining the effective management of our company is to minimise costs, including reducing energy costs. Together with energy and construction professionals, we analysed the design of our production plant and existing mechanical solutions, and based on this we have developed the following investment plan. Implementation of development 01 October 2020 — Planned for 31 December 2021. The first part of our existing production complex is a heated warehouse with the following energy efficiency renovations: Thermal insulation of building envelopes other than doors and windows separating heated and unheated spaces shall be carried out as follows: The thermal insulation of building structures between heated and unheated spaces in the Csárda building built at the turn of the last century is the primary factor in the realisation of a successful energy rationalisation project. Polysicyrol xps Austrotherm and eps graphite thermal insulation must be installed on the outer façade, plinth, 15 cm thickness, with a surface area of 596.45 m². The development element of vertical thermal insulation is an additional 764.9 m² surface of stone wool, rockwool insulation application in 15 cm thickness in the inclined roof planes. Thermal insulation of building structures between heated and unheated spaces in the Csárda building is necessary not only on vertical but also on horizontal surfaces. In the direction of the attic, a large amount of energy is emitted, so thermal insulation is essential in this plane. In the attic space a 15 cm thickness of rockwool multirock fiber, rock wool thermal insulation is required, as well as polystyrene foam in the same thickness, the attic space is 307.23 m². The key element of energy efficiency measures is the modernisation of doors and windows. As part of the project, all facade and attic doors will be replaced. The design of the 131.67 m² surface of plastic/wood window replacement is as follows: 10 doors, 1 balcony door, 38 windows and 20 x velux windows will be installed. Plastic doors and windows type INOUTIC 5 air chamber, German plastic profile system, galvanised steel with stiffening, Roto single-handed, safety irons, grey rubber seal. Glass thermal insulation value min 4-16arg-4Low-E=1,0W/m2K. One of the most effective ways to exploit renewable energy sources is the use of solar energy to replace electricity. The characteristic parameter of the planned solar panel development is 48kWp. To reduce electricity consumption, 117 Hiku 410w solar panels and 2 Fronius Syma 20 kW, 1pcs Fronius Syma 10 kW inverters will be installed, which is expected to save 60.000 kW of energy. Performance warranty 25 years. Heat pump development One of the efficient technical solutions for the utilisation of renewable energy sources is the use of heat pumps. The heat pump has an air-to-water heat generating capacity of 80 kW. In the planned renovation, the modernisation of the heating system will be realised with 4 ESAWH 19&20 V5+ air wet heat pumps, which not only provides heating but also full hot water supply. Energy development expects a significant financial sacrifice from our company — even with the non-repayable grant — for this reason we are particularly careful in the implementation of the construction. (English) | |||||||||||||||
| Property / summary: One of the key points in maintaining the effective management of our company is to minimise costs, including reducing energy costs. Together with energy and construction professionals, we analysed the design of our production plant and existing mechanical solutions, and based on this we have developed the following investment plan. Implementation of development 01 October 2020 — Planned for 31 December 2021. The first part of our existing production complex is a heated warehouse with the following energy efficiency renovations: Thermal insulation of building envelopes other than doors and windows separating heated and unheated spaces shall be carried out as follows: The thermal insulation of building structures between heated and unheated spaces in the Csárda building built at the turn of the last century is the primary factor in the realisation of a successful energy rationalisation project. Polysicyrol xps Austrotherm and eps graphite thermal insulation must be installed on the outer façade, plinth, 15 cm thickness, with a surface area of 596.45 m². The development element of vertical thermal insulation is an additional 764.9 m² surface of stone wool, rockwool insulation application in 15 cm thickness in the inclined roof planes. Thermal insulation of building structures between heated and unheated spaces in the Csárda building is necessary not only on vertical but also on horizontal surfaces. In the direction of the attic, a large amount of energy is emitted, so thermal insulation is essential in this plane. In the attic space a 15 cm thickness of rockwool multirock fiber, rock wool thermal insulation is required, as well as polystyrene foam in the same thickness, the attic space is 307.23 m². The key element of energy efficiency measures is the modernisation of doors and windows. As part of the project, all facade and attic doors will be replaced. The design of the 131.67 m² surface of plastic/wood window replacement is as follows: 10 doors, 1 balcony door, 38 windows and 20 x velux windows will be installed. Plastic doors and windows type INOUTIC 5 air chamber, German plastic profile system, galvanised steel with stiffening, Roto single-handed, safety irons, grey rubber seal. Glass thermal insulation value min 4-16arg-4Low-E=1,0W/m2K. One of the most effective ways to exploit renewable energy sources is the use of solar energy to replace electricity. The characteristic parameter of the planned solar panel development is 48kWp. To reduce electricity consumption, 117 Hiku 410w solar panels and 2 Fronius Syma 20 kW, 1pcs Fronius Syma 10 kW inverters will be installed, which is expected to save 60.000 kW of energy. Performance warranty 25 years. Heat pump development One of the efficient technical solutions for the utilisation of renewable energy sources is the use of heat pumps. The heat pump has an air-to-water heat generating capacity of 80 kW. In the planned renovation, the modernisation of the heating system will be realised with 4 ESAWH 19&20 V5+ air wet heat pumps, which not only provides heating but also full hot water supply. Energy development expects a significant financial sacrifice from our company — even with the non-repayable grant — for this reason we are particularly careful in the implementation of the construction. (English) / rank | |||||||||||||||
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| Property / summary: One of the key points in maintaining the effective management of our company is to minimise costs, including reducing energy costs. Together with energy and construction professionals, we analysed the design of our production plant and existing mechanical solutions, and based on this we have developed the following investment plan. Implementation of development 01 October 2020 — Planned for 31 December 2021. The first part of our existing production complex is a heated warehouse with the following energy efficiency renovations: Thermal insulation of building envelopes other than doors and windows separating heated and unheated spaces shall be carried out as follows: The thermal insulation of building structures between heated and unheated spaces in the Csárda building built at the turn of the last century is the primary factor in the realisation of a successful energy rationalisation project. Polysicyrol xps Austrotherm and eps graphite thermal insulation must be installed on the outer façade, plinth, 15 cm thickness, with a surface area of 596.45 m². The development element of vertical thermal insulation is an additional 764.9 m² surface of stone wool, rockwool insulation application in 15 cm thickness in the inclined roof planes. Thermal insulation of building structures between heated and unheated spaces in the Csárda building is necessary not only on vertical but also on horizontal surfaces. In the direction of the attic, a large amount of energy is emitted, so thermal insulation is essential in this plane. In the attic space a 15 cm thickness of rockwool multirock fiber, rock wool thermal insulation is required, as well as polystyrene foam in the same thickness, the attic space is 307.23 m². The key element of energy efficiency measures is the modernisation of doors and windows. As part of the project, all facade and attic doors will be replaced. The design of the 131.67 m² surface of plastic/wood window replacement is as follows: 10 doors, 1 balcony door, 38 windows and 20 x velux windows will be installed. Plastic doors and windows type INOUTIC 5 air chamber, German plastic profile system, galvanised steel with stiffening, Roto single-handed, safety irons, grey rubber seal. Glass thermal insulation value min 4-16arg-4Low-E=1,0W/m2K. One of the most effective ways to exploit renewable energy sources is the use of solar energy to replace electricity. The characteristic parameter of the planned solar panel development is 48kWp. To reduce electricity consumption, 117 Hiku 410w solar panels and 2 Fronius Syma 20 kW, 1pcs Fronius Syma 10 kW inverters will be installed, which is expected to save 60.000 kW of energy. Performance warranty 25 years. Heat pump development One of the efficient technical solutions for the utilisation of renewable energy sources is the use of heat pumps. The heat pump has an air-to-water heat generating capacity of 80 kW. In the planned renovation, the modernisation of the heating system will be realised with 4 ESAWH 19&20 V5+ air wet heat pumps, which not only provides heating but also full hot water supply. Energy development expects a significant financial sacrifice from our company — even with the non-repayable grant — for this reason we are particularly careful in the implementation of the construction. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 21:46, 8 February 2022
Project Q3934979 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Energy modernisation of pityer Csárda in light of 21st century expectations |
Project Q3934979 in Hungary |
Statements
59,565,000 forint
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296,051.652 Euro
0.0027336256 Euro
15 December 2021
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108,300,000.0 forint
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55.0 percent
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1 October 2020
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30 June 2022
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PITYER -CSÁRDA Vendéglátó Korlátolt Felelősségű Társaság
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47°13'44.83"N, 16°37'7.54"E
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Társaságunk eredményes gazdálkodásának fenntartásában az egyik sarkalatos pont a költségek minimalizálása, így többek közt az energiaköltségek mérséklése. Energetikai és építőipari szakemberekkel közösen elemeztük a termelőüzemünk kialakítását és meglévő gépészeti megoldásokat, és ez alapján alakítottuk ki az alábbi beruházási tervet. A fejlesztés megvalósítását 2020. október 01. – 2021. december 31. időszakban tervezzük. A meglévő termelő épületegyüttesünk első épületrésze egy fűtött raktár, melynek energiahatékonysági épületkorszerűsítései az alábbiak: Fűtött és fűtetlen teret elválasztó, nem nyílászáró szerkezetnek minősülő épülethatároló szerkezetek hőszigetelése valósul meg az alábbiak szerint: A múlt századfordulóban épült csárda épületében a fűtött és fűtetlen terek közötti épületszerkezetek hőszigetelése az elsődleges tényezője egy sikeres energiaracionalizálási projekt megvalósításának. A külső homlokzaton, lábazaton 15cm vastagságban poliszitirol xps austrotherm és eps grafitos hőszigetelést szükséges elhelyezni, az érintett függőleges felület 596,45m2 alapterületű. A függőleges hőszigetelés fejlesztési eleme további 764,9m2 felületen kőzetgyapot, rockwool szigetelés felvitele 15 cm vastagságban a ferde tetősíkokban. A csárda épületében a fűtött és fűtetlen terek közötti épületszerkezetek hőszigetelése nemcsupán a függőleges, de a vízszintes felületeken is szükséges. A tetőtér irányában nagy mennyiségű energia távozik, így ebben a síkban elengedhetetlen a hőszigetelés. A padlástérben 15cm vastagságban rockwool multirock szálas, kőzetgyapot hőszigetelést szükséges elhelyezni, valamint ugyanebben a vastagságban polisztirol habot, az érintett padlástér 307,23m2 alapterületű. Nyílászárók cseréje Az energiahatékonysági intézkedések meghatározó eleme a nyílászárók korszerűsítése. A projekt keretében az épület valamennyi homlokzati és tetőtéri nyílászárója ki lesz cserélve. Tervezett a 131,67 m2 felületen műanyag / fa nyílászáró csere az alábbiak szerint alakul 10 db ajtó, 1db balkonajtó, 38 db ablak és 20db velux ablak beépítésére kerül sor. A műanyag nyílászárók típusa Inoutic 5 légkamrás, német műanyag profilrendszer, horganyzott idomacél merevítéssel, Roto egykezes működtetésű, biztonsági vasalatokkal, szürke gumitömítéssel. Üveg hőszigetelő értéke min 4-16arg-4Low-E=1,0W/m2K. Megújuló energiák hasznosítása Napelem fejlesztés A megújuló energiaforrások hasznosításának egyik leghatékonyabb módja a napenergia felhasználása a villamos energia kiváltásában. A tervezett napelem fejlesztés jellemző paramétere 48kWp. A villamos áramfelhasználás csökkentésére 117 db Hiku 410w típusú napelem, valamint 2db Fronius Syma 20kW, 1db Fronius Syma 10kW inverter kerül beépítésre, amivel várhatóan 60.000 kW energia takarítható meg. Teljesítmény garancia 25év. Hőszivattyú fejlesztés A megújuló energiaforrások hasznosításának egyik hatékony műszaki megoldása a hőszivattyú alkalmazása. A hőszivattyú levegő-víz üzemű, hőtermelő képessége 80kW. A tervezett felújításában megvalósulásra kerül a fűtés rendszer korszerűsítése 4db ESAWH 19&20 V5+ típusú levegő vizes hőszivattyúval,ami nem csak a fűtés hanem a teljes melegvíz ellátását is biztosítja. A energetikai fejlesztés jelentős anyagi áldozatot vár el a társaságunktól -még a vissza nem térítendő támogatással is - emiatt különösen körültekintően járunk el a kivitelezés megvalósítása során. (Hungarian)
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One of the key points in maintaining the effective management of our company is to minimise costs, including reducing energy costs. Together with energy and construction professionals, we analysed the design of our production plant and existing mechanical solutions, and based on this we have developed the following investment plan. Implementation of development 01 October 2020 — Planned for 31 December 2021. The first part of our existing production complex is a heated warehouse with the following energy efficiency renovations: Thermal insulation of building envelopes other than doors and windows separating heated and unheated spaces shall be carried out as follows: The thermal insulation of building structures between heated and unheated spaces in the Csárda building built at the turn of the last century is the primary factor in the realisation of a successful energy rationalisation project. Polysicyrol xps Austrotherm and eps graphite thermal insulation must be installed on the outer façade, plinth, 15 cm thickness, with a surface area of 596.45 m². The development element of vertical thermal insulation is an additional 764.9 m² surface of stone wool, rockwool insulation application in 15 cm thickness in the inclined roof planes. Thermal insulation of building structures between heated and unheated spaces in the Csárda building is necessary not only on vertical but also on horizontal surfaces. In the direction of the attic, a large amount of energy is emitted, so thermal insulation is essential in this plane. In the attic space a 15 cm thickness of rockwool multirock fiber, rock wool thermal insulation is required, as well as polystyrene foam in the same thickness, the attic space is 307.23 m². The key element of energy efficiency measures is the modernisation of doors and windows. As part of the project, all facade and attic doors will be replaced. The design of the 131.67 m² surface of plastic/wood window replacement is as follows: 10 doors, 1 balcony door, 38 windows and 20 x velux windows will be installed. Plastic doors and windows type INOUTIC 5 air chamber, German plastic profile system, galvanised steel with stiffening, Roto single-handed, safety irons, grey rubber seal. Glass thermal insulation value min 4-16arg-4Low-E=1,0W/m2K. One of the most effective ways to exploit renewable energy sources is the use of solar energy to replace electricity. The characteristic parameter of the planned solar panel development is 48kWp. To reduce electricity consumption, 117 Hiku 410w solar panels and 2 Fronius Syma 20 kW, 1pcs Fronius Syma 10 kW inverters will be installed, which is expected to save 60.000 kW of energy. Performance warranty 25 years. Heat pump development One of the efficient technical solutions for the utilisation of renewable energy sources is the use of heat pumps. The heat pump has an air-to-water heat generating capacity of 80 kW. In the planned renovation, the modernisation of the heating system will be realised with 4 ESAWH 19&20 V5+ air wet heat pumps, which not only provides heating but also full hot water supply. Energy development expects a significant financial sacrifice from our company — even with the non-repayable grant — for this reason we are particularly careful in the implementation of the construction. (English)
8 February 2022
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Szombathely, Vas
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Identifiers
GINOP-4.1.4-19-2020-01880
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