Complex energy development at Eurocircuits Kft. (Q3935539): Difference between revisions
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In 2019, the management commissioned a complex energy and environmental efficiency study. Several versions have been created: installing only solar panels, increasing customer demands for green expectations, and a complex investment budget plan for all energy areas. Between 2016-2019, the company financed the modernisation of lighting with its own resources. Following the survey, the owner’s decision on the implementation of the investment, the selection of planners, the assignment of: facade and slab insulation, as well as doors and windows, mechanical designer for energy modernisation and solar panel installation. Request a static opinion. On the basis of the architectural and mechanical designs, the energetic has prepared certificates for the existing, intermediate and planned state of the building. The energetic manages and coordinates calculations and technical content between disciplines. The installation of the solar panel is subject to authorisation and the plans have been submitted to the Department of Transport, Technical Licensing and Consumer Protection of the Government Office of HM. Other technical intervention in the building is not subject to authorisation. A plan has been drawn up and lots have been published, for which bids were requested from at least 3 specialist contractors. Finalise contractors’ prices with prospective contractors. Submission of application September 2020, expected decision at the end of 2020. Implementation steps: Conclusion of contractors’ contracts with the contractors, technical inspectors (architect, building engineer, electrical), project management (the company has carried out an investment of HUF 900 mt of EU support in the last 3 years), the energetic. Construction 2021. From 03, 2021 It lasts until the 10th month, with weekly cooperation meetings. Test run will be the technical transfer, closing energy audit. Completion of the project by 31.12.2021. Target areas and built-in technical content: Renewable energy: installation of a solar panel park with a built-in capacity of 191.7 kWp to replace 433 010.82 kWh of electricity per year related to the operation of the building, generating 210.870 kWh of electricity per year. 426 Longi LR4 solar panels with 72 cell power, 450Wp, today the world’s leading performance. Inverter: Huawei Sun2000 is the most common power plant inverter. Improvement of the thermal equipment of the building. Installation of a thermal insulation panel system on the entire facade and slab structure of the building in a thickness of 10 cm. Side panel structure: PUR foam, 100 mm thick with 0.24 W/m2K, TOPANEL TOP WALL type. Slab panel: TOPANEL TOP ROOF PUR load 100 mm thick with 0.17 W/m2K. Replacement of doors and windows with 1.15 W/m2K instead of the current 1.8-3.1 U W/m2K. Complex modernisation of the building’s cooling/heating/HMV system. The current 4 Buderus 130 kW boilers with 4 Remeha Quinta ACE 115 PL cascade systems, 104 kW/pcs, nominal power will be installed instead of a total of 520 kW boilers. The system provides hot water for both HMV and technology. Modernisation of the cooling system: Instead of 1 compact outdoor liquid cooler with an existing 730 kW heat output, a Johnson Controls YSSC 530 EVO H1P liquid cooler with two separate cooling circuits and 6 built-up JOHNSON CONTROL 530 EVO H1P cascade compressors and modern refrigerant R410a will be installed. The use of electricity is about 35 % less and 25 % less cooling, because the heating of the building is greatly reduced by external thermal insulation. (English) | |||||||||||||||
| Property / summary: In 2019, the management commissioned a complex energy and environmental efficiency study. Several versions have been created: installing only solar panels, increasing customer demands for green expectations, and a complex investment budget plan for all energy areas. Between 2016-2019, the company financed the modernisation of lighting with its own resources. Following the survey, the owner’s decision on the implementation of the investment, the selection of planners, the assignment of: facade and slab insulation, as well as doors and windows, mechanical designer for energy modernisation and solar panel installation. Request a static opinion. On the basis of the architectural and mechanical designs, the energetic has prepared certificates for the existing, intermediate and planned state of the building. The energetic manages and coordinates calculations and technical content between disciplines. The installation of the solar panel is subject to authorisation and the plans have been submitted to the Department of Transport, Technical Licensing and Consumer Protection of the Government Office of HM. Other technical intervention in the building is not subject to authorisation. A plan has been drawn up and lots have been published, for which bids were requested from at least 3 specialist contractors. Finalise contractors’ prices with prospective contractors. Submission of application September 2020, expected decision at the end of 2020. Implementation steps: Conclusion of contractors’ contracts with the contractors, technical inspectors (architect, building engineer, electrical), project management (the company has carried out an investment of HUF 900 mt of EU support in the last 3 years), the energetic. Construction 2021. From 03, 2021 It lasts until the 10th month, with weekly cooperation meetings. Test run will be the technical transfer, closing energy audit. Completion of the project by 31.12.2021. Target areas and built-in technical content: Renewable energy: installation of a solar panel park with a built-in capacity of 191.7 kWp to replace 433 010.82 kWh of electricity per year related to the operation of the building, generating 210.870 kWh of electricity per year. 426 Longi LR4 solar panels with 72 cell power, 450Wp, today the world’s leading performance. Inverter: Huawei Sun2000 is the most common power plant inverter. Improvement of the thermal equipment of the building. Installation of a thermal insulation panel system on the entire facade and slab structure of the building in a thickness of 10 cm. Side panel structure: PUR foam, 100 mm thick with 0.24 W/m2K, TOPANEL TOP WALL type. Slab panel: TOPANEL TOP ROOF PUR load 100 mm thick with 0.17 W/m2K. Replacement of doors and windows with 1.15 W/m2K instead of the current 1.8-3.1 U W/m2K. Complex modernisation of the building’s cooling/heating/HMV system. The current 4 Buderus 130 kW boilers with 4 Remeha Quinta ACE 115 PL cascade systems, 104 kW/pcs, nominal power will be installed instead of a total of 520 kW boilers. The system provides hot water for both HMV and technology. Modernisation of the cooling system: Instead of 1 compact outdoor liquid cooler with an existing 730 kW heat output, a Johnson Controls YSSC 530 EVO H1P liquid cooler with two separate cooling circuits and 6 built-up JOHNSON CONTROL 530 EVO H1P cascade compressors and modern refrigerant R410a will be installed. The use of electricity is about 35 % less and 25 % less cooling, because the heating of the building is greatly reduced by external thermal insulation. (English) / rank | |||||||||||||||
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| Property / summary: In 2019, the management commissioned a complex energy and environmental efficiency study. Several versions have been created: installing only solar panels, increasing customer demands for green expectations, and a complex investment budget plan for all energy areas. Between 2016-2019, the company financed the modernisation of lighting with its own resources. Following the survey, the owner’s decision on the implementation of the investment, the selection of planners, the assignment of: facade and slab insulation, as well as doors and windows, mechanical designer for energy modernisation and solar panel installation. Request a static opinion. On the basis of the architectural and mechanical designs, the energetic has prepared certificates for the existing, intermediate and planned state of the building. The energetic manages and coordinates calculations and technical content between disciplines. The installation of the solar panel is subject to authorisation and the plans have been submitted to the Department of Transport, Technical Licensing and Consumer Protection of the Government Office of HM. Other technical intervention in the building is not subject to authorisation. A plan has been drawn up and lots have been published, for which bids were requested from at least 3 specialist contractors. Finalise contractors’ prices with prospective contractors. Submission of application September 2020, expected decision at the end of 2020. Implementation steps: Conclusion of contractors’ contracts with the contractors, technical inspectors (architect, building engineer, electrical), project management (the company has carried out an investment of HUF 900 mt of EU support in the last 3 years), the energetic. Construction 2021. From 03, 2021 It lasts until the 10th month, with weekly cooperation meetings. Test run will be the technical transfer, closing energy audit. Completion of the project by 31.12.2021. Target areas and built-in technical content: Renewable energy: installation of a solar panel park with a built-in capacity of 191.7 kWp to replace 433 010.82 kWh of electricity per year related to the operation of the building, generating 210.870 kWh of electricity per year. 426 Longi LR4 solar panels with 72 cell power, 450Wp, today the world’s leading performance. Inverter: Huawei Sun2000 is the most common power plant inverter. Improvement of the thermal equipment of the building. Installation of a thermal insulation panel system on the entire facade and slab structure of the building in a thickness of 10 cm. Side panel structure: PUR foam, 100 mm thick with 0.24 W/m2K, TOPANEL TOP WALL type. Slab panel: TOPANEL TOP ROOF PUR load 100 mm thick with 0.17 W/m2K. Replacement of doors and windows with 1.15 W/m2K instead of the current 1.8-3.1 U W/m2K. Complex modernisation of the building’s cooling/heating/HMV system. The current 4 Buderus 130 kW boilers with 4 Remeha Quinta ACE 115 PL cascade systems, 104 kW/pcs, nominal power will be installed instead of a total of 520 kW boilers. The system provides hot water for both HMV and technology. Modernisation of the cooling system: Instead of 1 compact outdoor liquid cooler with an existing 730 kW heat output, a Johnson Controls YSSC 530 EVO H1P liquid cooler with two separate cooling circuits and 6 built-up JOHNSON CONTROL 530 EVO H1P cascade compressors and modern refrigerant R410a will be installed. The use of electricity is about 35 % less and 25 % less cooling, because the heating of the building is greatly reduced by external thermal insulation. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 21:57, 8 February 2022
Project Q3935539 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Complex energy development at Eurocircuits Kft. |
Project Q3935539 in Hungary |
Statements
192,992,967 forint
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1,018,181.058 Euro
0.0027336256 Euro
15 December 2021
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372,465,438.58 forint
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51.81536 percent
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15 March 2021
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31 December 2021
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EUROCIRCUITS Nyomtatott Áramkör Gyártó Korlátolt Felelősségű Társaság
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47°59'54.89"N, 20°26'3.16"E
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2019. évben komplex energetikai-, és környezethatékonysági tanulmányt készíttetett a menedzsment. Többféle verzió készült: csak napelem telepítése növelve a zöld elvárásoknak való vevői igényeket, és komplex, minden energetikai területre vonatkozó beruházási költségvetési terv. A cég 2016-2019. között saját erőből finanszírozta a világítás korszerűsítését. A felmérést követően tulajdonosi döntés a beruházás megvalósításáról, tervezők kiválasztása, megbízása: homlokzat és födém szigetelésre, valamint nyílászárócserére, gépészeti tervező az energetikai korszerűsítésre, illetve tervező a napelem telepítésre. Statikai szakvélemény bekérése. A építészeti és gépészeti tervek alapján az energetikus elkészítette az épület meglévő, köztes és tervezett állapotára vonatkozó tanúsítványokat. Az energetikus irányítja és koordinálja a szakágak közötti számításokat, műszaki tartalmakat. A napelem telepítése engedélyköteles, a tervek benyújtásra kerültek a HM-i Kormányhivatal Közlekedési, Műszaki Engedélyezési és Fogyasztóvédelmi Főosztályára. Az épületben történő egyéb műszaki beavatkozás nem engedélyköteles. Elkészült a szakágakra bontott terv, tételek kiírás készült, melyre ajánlatok kerültek bekérésre, legalább 3 szakági kivitelezőtől. A leendő kivitelezőkkel a kivitelezői árak véglegesítése. Pályázat benyújtása 2020. szeptember, várható döntés 2020. év végén. Megvalósítás lépései: Kivitelezői, vállalkozói szerződések megkötése a kivitelezőkkel, műszaki ellenőrökkel (építész, épületgépész, villamos), a projektmenedzsmenttel (a cég az elmúlt 3 évben 900 mFt értékű beruházást valósított meg EU-s támogatásból), az energetikussal. Kivitelezés 2021. 03. hótól, 2021. 10. hóig tart, heti kooperációs értekezletekkel. Próbaüzem majd a műszaki átadás, záró energetikai audit. A projekt zárása 2021.12.31-ig. Célterületek és beépített műszaki tartalmak: Megújuló energia: az épület működtetéséhez kapcsolódó évi 433 010,82 kWh villamos áram kiváltására 191,7 kWp beépített teljesítményű födémre szerelt napelempark telepítése, ami évi 210.870kWh villamos áramot termel. 426 db Longi LR4 típusú, 72 cellás, 450Wp teljesítményű napelem, ma a világ élvonalába tartozó teljesítmény. Inverter: Huawei Sun2000 a legelterjedtebb erőművi inverter. Épület hőtechnikai adottságainak javítása. Az épület teljes homlokzati- és födémszerkezetére hőszigetelő panelrendszer felhelyezése 10 cm vastagságban. Oldalpanel szerkezet: PUR hab, töltetű 100 mm vastag 0,24 W/m2K értékkel, TOPANEL TOP WALL típus. Födémpanel: TOPANEL TOP ROOF PUR töltetű 100 mm vastag, 0,17 W/m2K értékkel. Nyílászárók cseréje a jelenlegi 1,8-3,1 U W/m2K értékű helyett 1,15 W/m2K értékűekre. Az épület hűtési/fűtési/HMV rendszerének komplex korszerűsítése. A jelenlegi 4 db Buderus 130 kW, összesen 520 kW kazán helyett, 4 db REMEHA QUINTA ACE 115 PL kaszkád rendszerű, fokozat igénybevételű, 104 kW/db, névleges teljesítményű kazán kerül beépítésre. A rendszer biztosítja mind a HMV, mind a technológiához szükséges melegvizet. Hűtési rendszer korszerűsítése: 1 db meglévő 730 kW hőteljesítményű kompakt kültéri folyadékhűtő helyett egy Johnson Controls YSSC 530 EVO H1P típusú, két önálló hűtőkörrel és 6 db felépülő JOHNSON CONTROL 530 EVO H1P kaszkád rendszerű kompresszorral és modern R410a hűtőközeggel rendelkező folyadékhűtő kerül felszerelésre. Kb. 35%-kal kisebb a villamos áram felhasználása és 25%-kal kisebb hűtőteljesítménnyel, mert az épület átmelegedését a külső hőszigetelés nagyban csökkenti. (Hungarian)
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In 2019, the management commissioned a complex energy and environmental efficiency study. Several versions have been created: installing only solar panels, increasing customer demands for green expectations, and a complex investment budget plan for all energy areas. Between 2016-2019, the company financed the modernisation of lighting with its own resources. Following the survey, the owner’s decision on the implementation of the investment, the selection of planners, the assignment of: facade and slab insulation, as well as doors and windows, mechanical designer for energy modernisation and solar panel installation. Request a static opinion. On the basis of the architectural and mechanical designs, the energetic has prepared certificates for the existing, intermediate and planned state of the building. The energetic manages and coordinates calculations and technical content between disciplines. The installation of the solar panel is subject to authorisation and the plans have been submitted to the Department of Transport, Technical Licensing and Consumer Protection of the Government Office of HM. Other technical intervention in the building is not subject to authorisation. A plan has been drawn up and lots have been published, for which bids were requested from at least 3 specialist contractors. Finalise contractors’ prices with prospective contractors. Submission of application September 2020, expected decision at the end of 2020. Implementation steps: Conclusion of contractors’ contracts with the contractors, technical inspectors (architect, building engineer, electrical), project management (the company has carried out an investment of HUF 900 mt of EU support in the last 3 years), the energetic. Construction 2021. From 03, 2021 It lasts until the 10th month, with weekly cooperation meetings. Test run will be the technical transfer, closing energy audit. Completion of the project by 31.12.2021. Target areas and built-in technical content: Renewable energy: installation of a solar panel park with a built-in capacity of 191.7 kWp to replace 433 010.82 kWh of electricity per year related to the operation of the building, generating 210.870 kWh of electricity per year. 426 Longi LR4 solar panels with 72 cell power, 450Wp, today the world’s leading performance. Inverter: Huawei Sun2000 is the most common power plant inverter. Improvement of the thermal equipment of the building. Installation of a thermal insulation panel system on the entire facade and slab structure of the building in a thickness of 10 cm. Side panel structure: PUR foam, 100 mm thick with 0.24 W/m2K, TOPANEL TOP WALL type. Slab panel: TOPANEL TOP ROOF PUR load 100 mm thick with 0.17 W/m2K. Replacement of doors and windows with 1.15 W/m2K instead of the current 1.8-3.1 U W/m2K. Complex modernisation of the building’s cooling/heating/HMV system. The current 4 Buderus 130 kW boilers with 4 Remeha Quinta ACE 115 PL cascade systems, 104 kW/pcs, nominal power will be installed instead of a total of 520 kW boilers. The system provides hot water for both HMV and technology. Modernisation of the cooling system: Instead of 1 compact outdoor liquid cooler with an existing 730 kW heat output, a Johnson Controls YSSC 530 EVO H1P liquid cooler with two separate cooling circuits and 6 built-up JOHNSON CONTROL 530 EVO H1P cascade compressors and modern refrigerant R410a will be installed. The use of electricity is about 35 % less and 25 % less cooling, because the heating of the building is greatly reduced by external thermal insulation. (English)
8 February 2022
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Felsőtárkány, Heves
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Identifiers
GINOP-4.1.4-19-2020-02670
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