Energy modernisation of Héhalom municipal building (Q3951155): Difference between revisions
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During the implementation period of the project, as part of a training course, the users of the building affected by the investment will receive information (on the solutions applied, the rules of proper operation and the environmental benefits of the project) which is planned to be carried out by an expert with experience in building energy. The training material presented will also be made available within the relevant institution. An energy expert will be involved throughout the project implementation period, with the following tasks: — professional consultation and advice on energy issues for the expert conducting the public procurement procedure during the construction procurement procedure (e.g. on the energy-related technical issues of construction) — provision of energy expert consultation with the representative of the applicant and the technical inspector involved (e.g. on the energy compliance of the built-in materials) — preparation of final energy audit and certification after the physical completion of the project. In addition, in parallel with the implementation of the project’s energy project, the building energy parameters of the institutions of the settlement will be assessed and tested in the framework of an energy expert service, and after the data processing they will be recorded in the NÉeR. The aim of the survey is to ensure that these recorded data are already available in a structured way as base data during the preparation of a future regional or county SEAP or SECAP study. In the course of the development, the nursery building of the Municipality of Héhalom will be upgraded. Replacement of doors and windows is necessary in accordance with Annex 5 of Decree No 7/2006, i.e. the cost-optimal requirement level (the criteria values can be found after the proposal for the delimitation structure). Replacement of existing facade doors and windows (which are below the requirements in its energy parameters) for windows with a heat transfer factor Uwmax = 1.15 W/m2K, together with necessary demolitions, restorations and system accessories. The installation of modern, well-sealed doors and windows can cause a lower number of air exchange and thus a lack of fresh air and humidity problems. In order to avoid this, we recommend the installation of air inlets that are vapor-controlled (and fixed in the case of rooms with gas-fired appliances). Retrospective external thermal insulation The design of ex-post thermal insulation on the external side is necessary in accordance with Annex 5 of Decree No 7/2006, i.e. the cost-optimal requirement level. The thermal insulation of facade walls is made of 15 cm vtg.,?=0.04 W/mK thermal conductivity factor, using a thermal insulation system (the stone wall requires rock wool) together with the necessary demolitions, restorations and system accessories, with a non-heat bridge (or maximum heat bridge loss factor of 0.002 W/K) plastic ensemble. Thermal insulation of the attic ceiling using a thermal insulation system of 25 cm vtg.,?=0.04 W/mK thermal conductivity factor. Replacement of an outdated, constant temperature gas boiler in the building for a condensation gas boiler with automatic programmable heating control and the installation of thermostatic radiator valves to reduce losses due to inaccuracy of performance and heat demand. The replacement and modernisation of the current domestic hot water production equipment is not justified for reasons of cost-effectiveness due to low hot water consumption. Renewable energy-based systems Installing a solar system regenerating to the grid to reduce/replace electricity in the building, with the following parameters: Characteristics of the intended system: Peak performance (estimated): 5,5 kWp Average energy yield (estimated): 965 kWh/kWp Annual energy yield (estimated): 5 310 kWh/year The calculation has been made with polycrystalline solar modules with a peak power of 275 Wp, the system shall include the inverters accepted by the power supplier, the support structures needed to attach the solar panels to the roof, the DC and AC overvoltage protections. During implementation, in accordance with the specifications of the project, the accessibility of the project will be carried out. The planned project fits the National Energy Strategy 2030, Hungary II. National Energy Efficiency Action Plan and National Building Energy Strategy. The investment contributes to the reduction of GHG emissions from institutions run by municipalities (English) | |||||||||||||||
| Property / summary: During the implementation period of the project, as part of a training course, the users of the building affected by the investment will receive information (on the solutions applied, the rules of proper operation and the environmental benefits of the project) which is planned to be carried out by an expert with experience in building energy. The training material presented will also be made available within the relevant institution. An energy expert will be involved throughout the project implementation period, with the following tasks: — professional consultation and advice on energy issues for the expert conducting the public procurement procedure during the construction procurement procedure (e.g. on the energy-related technical issues of construction) — provision of energy expert consultation with the representative of the applicant and the technical inspector involved (e.g. on the energy compliance of the built-in materials) — preparation of final energy audit and certification after the physical completion of the project. In addition, in parallel with the implementation of the project’s energy project, the building energy parameters of the institutions of the settlement will be assessed and tested in the framework of an energy expert service, and after the data processing they will be recorded in the NÉeR. The aim of the survey is to ensure that these recorded data are already available in a structured way as base data during the preparation of a future regional or county SEAP or SECAP study. In the course of the development, the nursery building of the Municipality of Héhalom will be upgraded. Replacement of doors and windows is necessary in accordance with Annex 5 of Decree No 7/2006, i.e. the cost-optimal requirement level (the criteria values can be found after the proposal for the delimitation structure). Replacement of existing facade doors and windows (which are below the requirements in its energy parameters) for windows with a heat transfer factor Uwmax = 1.15 W/m2K, together with necessary demolitions, restorations and system accessories. The installation of modern, well-sealed doors and windows can cause a lower number of air exchange and thus a lack of fresh air and humidity problems. In order to avoid this, we recommend the installation of air inlets that are vapor-controlled (and fixed in the case of rooms with gas-fired appliances). Retrospective external thermal insulation The design of ex-post thermal insulation on the external side is necessary in accordance with Annex 5 of Decree No 7/2006, i.e. the cost-optimal requirement level. The thermal insulation of facade walls is made of 15 cm vtg.,?=0.04 W/mK thermal conductivity factor, using a thermal insulation system (the stone wall requires rock wool) together with the necessary demolitions, restorations and system accessories, with a non-heat bridge (or maximum heat bridge loss factor of 0.002 W/K) plastic ensemble. Thermal insulation of the attic ceiling using a thermal insulation system of 25 cm vtg.,?=0.04 W/mK thermal conductivity factor. Replacement of an outdated, constant temperature gas boiler in the building for a condensation gas boiler with automatic programmable heating control and the installation of thermostatic radiator valves to reduce losses due to inaccuracy of performance and heat demand. The replacement and modernisation of the current domestic hot water production equipment is not justified for reasons of cost-effectiveness due to low hot water consumption. Renewable energy-based systems Installing a solar system regenerating to the grid to reduce/replace electricity in the building, with the following parameters: Characteristics of the intended system: Peak performance (estimated): 5,5 kWp Average energy yield (estimated): 965 kWh/kWp Annual energy yield (estimated): 5 310 kWh/year The calculation has been made with polycrystalline solar modules with a peak power of 275 Wp, the system shall include the inverters accepted by the power supplier, the support structures needed to attach the solar panels to the roof, the DC and AC overvoltage protections. During implementation, in accordance with the specifications of the project, the accessibility of the project will be carried out. The planned project fits the National Energy Strategy 2030, Hungary II. National Energy Efficiency Action Plan and National Building Energy Strategy. The investment contributes to the reduction of GHG emissions from institutions run by municipalities (English) / rank | |||||||||||||||
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| Property / summary: During the implementation period of the project, as part of a training course, the users of the building affected by the investment will receive information (on the solutions applied, the rules of proper operation and the environmental benefits of the project) which is planned to be carried out by an expert with experience in building energy. The training material presented will also be made available within the relevant institution. An energy expert will be involved throughout the project implementation period, with the following tasks: — professional consultation and advice on energy issues for the expert conducting the public procurement procedure during the construction procurement procedure (e.g. on the energy-related technical issues of construction) — provision of energy expert consultation with the representative of the applicant and the technical inspector involved (e.g. on the energy compliance of the built-in materials) — preparation of final energy audit and certification after the physical completion of the project. In addition, in parallel with the implementation of the project’s energy project, the building energy parameters of the institutions of the settlement will be assessed and tested in the framework of an energy expert service, and after the data processing they will be recorded in the NÉeR. The aim of the survey is to ensure that these recorded data are already available in a structured way as base data during the preparation of a future regional or county SEAP or SECAP study. In the course of the development, the nursery building of the Municipality of Héhalom will be upgraded. Replacement of doors and windows is necessary in accordance with Annex 5 of Decree No 7/2006, i.e. the cost-optimal requirement level (the criteria values can be found after the proposal for the delimitation structure). Replacement of existing facade doors and windows (which are below the requirements in its energy parameters) for windows with a heat transfer factor Uwmax = 1.15 W/m2K, together with necessary demolitions, restorations and system accessories. The installation of modern, well-sealed doors and windows can cause a lower number of air exchange and thus a lack of fresh air and humidity problems. In order to avoid this, we recommend the installation of air inlets that are vapor-controlled (and fixed in the case of rooms with gas-fired appliances). Retrospective external thermal insulation The design of ex-post thermal insulation on the external side is necessary in accordance with Annex 5 of Decree No 7/2006, i.e. the cost-optimal requirement level. The thermal insulation of facade walls is made of 15 cm vtg.,?=0.04 W/mK thermal conductivity factor, using a thermal insulation system (the stone wall requires rock wool) together with the necessary demolitions, restorations and system accessories, with a non-heat bridge (or maximum heat bridge loss factor of 0.002 W/K) plastic ensemble. Thermal insulation of the attic ceiling using a thermal insulation system of 25 cm vtg.,?=0.04 W/mK thermal conductivity factor. Replacement of an outdated, constant temperature gas boiler in the building for a condensation gas boiler with automatic programmable heating control and the installation of thermostatic radiator valves to reduce losses due to inaccuracy of performance and heat demand. The replacement and modernisation of the current domestic hot water production equipment is not justified for reasons of cost-effectiveness due to low hot water consumption. Renewable energy-based systems Installing a solar system regenerating to the grid to reduce/replace electricity in the building, with the following parameters: Characteristics of the intended system: Peak performance (estimated): 5,5 kWp Average energy yield (estimated): 965 kWh/kWp Annual energy yield (estimated): 5 310 kWh/year The calculation has been made with polycrystalline solar modules with a peak power of 275 Wp, the system shall include the inverters accepted by the power supplier, the support structures needed to attach the solar panels to the roof, the DC and AC overvoltage protections. During implementation, in accordance with the specifications of the project, the accessibility of the project will be carried out. The planned project fits the National Energy Strategy 2030, Hungary II. National Energy Efficiency Action Plan and National Building Energy Strategy. The investment contributes to the reduction of GHG emissions from institutions run by municipalities (English) / qualifier | |||||||||||||||
point in time: 9 February 2022
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Revision as of 13:33, 9 February 2022
Project Q3951155 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Energy modernisation of Héhalom municipal building |
Project Q3951155 in Hungary |
Statements
30,261,040 forint
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35,601,223.529 forint
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84.999987 percent
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1 April 2018
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29 December 2020
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HÉHALOM KÖZSÉG ÖNKORMÁNYZATA
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Q3979275 (Deleted Item)
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47°46'1.99"N, 19°35'38.72"E
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A projekt megvalósítási időszakában, egy képzés keretében a beruházással érintett épület használói tájékoztatásban részesülnek (az alkalmazott megoldásokról, a helyes üzemeltetés szabályairól, valamint a beruházás környezeti hozadékairól), melyet a tervek szerint épületenergetikában jártas szakértő végez majd. Az előadott képzési anyagot az adott intézményen belül elérhetővé is tesszük. A projekt teljes megvalósítási időszakában egy energetikai szakértő is bevonásra kerül, az alábbi feladatokkal: - a kivitelezés közbeszerzési eljárás során energetikai kérdésekben szakmai konzultáció és tanácsadás a közbeszerzési eljárást lefolytató szakértő számára (pl. a kivitelezés energetikai vonatkozású műszaki kérdéseiről) - energetikai szakértői konzultáció biztosítása a pályázó képviselőjével és a bevonásra került műszaki ellenőrrel (pl. a beépített anyagok energetikai megfelelőségéről) - projekt fizikai befejezését követően záró energetikai auditori vizsgálat és tanúsítvány készítése. Emellett a projekt energetikai beruházásának kivitelezésével párhuzamosan energetikai szakértői szolgáltatás keretében felmérésre és vizsgálatra kerülnek a település intézményeinek épületenergetikai paraméterei, majd az adatfeldolgozás után ezek rögzítésre kerülnek NÉeR-ben. A felmérés célja, hogy egy későbbi térségi vagy megyei SEAP vagy SECAP tanulmány előkészítése során ezek a rögzített adatok strukturáltan, bázisadatként már rendelkezésre álljanak. A fejlesztés során Héhalom Község Önkormányzat Óvoda épülete kerül korszerűsítésre. Nyílászáró-csere A nyílászárók cseréje a 7/2006 TNM rendelet 5. mellékletének, azaz a költségoptimalizált követelményszintnek megfelelően szükséges (a követelményértékek a határoló szerkezetre vonatkozó javaslat után kiemelve megtalálhatóak). A meglévő (energetikai paramétereiben a követelményektől elmaradó) homlokzati nyílászárók cseréje Uwmax = 1,15 W/m2K hőátbocsátási tényezőjű nyílászárókra, a szükséges bontásokkal, helyreállításokkal és rendszer-kiegészítőkkel együtt. A korszerű, jó légzárású nyílászárók beépítése alacsonyabb légcsere számot és így friss levegő hiányt, páratechnikai problémákat okozhat. Ennek kiküszöbölésére a nyílászárókba páraszabályzott (valamint gázüzemű készüléket tartalmazó helyiségek esetén fix) légbeeresztők beépítését javasoljuk. Utólagos külső oldali hőszigetelések Az utólagos külső oldali hőszigetelések kialakítása a 7/2006 TNM rendelet 5. mellékletének, azaz a költségoptimalizált követelményszintnek megfelelően szükséges. A homlokzati falak hőszigetelése 15 cm vtg., ?=0,04 W/mK hővezetési tényező értékkel rendelkező kőzetgyapot hőszigetelő (kő fal miatt kell kőzetgyapot) rendszer alkalmazásával, a szükséges bontásokkal, helyreállításokkal és rendszer-kiegészítőkkel együtt, hőhídmentes (vagy maximum 0,002 W/K pontszerű hőhídveszteségi tényezőjű) műanyag dűbelezéssel. Padlásfödém hőszigetelése 25 cm vtg., ?=0,04 W/mK hővezetési tényező értékkel rendelkező üveggyapot hőszigetelő rendszer alkalmazásával. Épületgépészeti korszerűsítések Az épületben található korszerűtlen, állandó hőmérsékletű gázkazán cseréje kondenzációs gázkazánra, automatikával programozható fűtésszabályozással ellátva, valamint a teljesítmény és a hőigény pontatlansága miatti veszteségek csökkentése érdekében termosztatikus radiátorszelepek beszerelése. A jelenlegi használati meleg víz készítő berendezések cseréje, korszerűsítése költséghatékonysági okokból nem indokolt, az alacsony meleg víz fogyasztás miatt. Megújuló energia alapú rendszerek Az épület villamos energia fogyasztásának csökkentése/kiváltása érdekében hálózatra visszatápláló napelemes rendszer telepítése az alábbi paraméterekkel: A tervezett rendszer jellemzői: Csúcsteljesítmény (becsült): 5,5 kWp Fajlagos energiahozam (becsült): 965 kWh/kWp Éves energiahozam (becsült): 5310 kWh/év A kalkuláció 275 Wp csúcsteljesítményű polikristályos napelem modulokkal történt, a rendszernek tartalmaznia kell az áramszolgáltató által elfogadott invertereket, a napelemek tetőre rögzítéséhez szükséges tartószerkezeteket, egyen-, és váltakozó áram oldali túlfeszültség védelmeket. Megvalósítás során a pályázati előírásoknak megfelelően projektarányos akadálymentesítésre kerül sor. A tervezett projekt illeszkedik a Nemzeti Energiastratégia 2030, Magyarország II. Nemzeti Energiahatékonysági Cselekvési Terv, ill. Nemzeti Épületenergetikai Stratégiában megfogalmazottakhoz. A beruházás hozzájárul az önkormányzatok által működtetett intézmények ÜHG-kibocsátásának csökkentéséhez (Hungarian)
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During the implementation period of the project, as part of a training course, the users of the building affected by the investment will receive information (on the solutions applied, the rules of proper operation and the environmental benefits of the project) which is planned to be carried out by an expert with experience in building energy. The training material presented will also be made available within the relevant institution. An energy expert will be involved throughout the project implementation period, with the following tasks: — professional consultation and advice on energy issues for the expert conducting the public procurement procedure during the construction procurement procedure (e.g. on the energy-related technical issues of construction) — provision of energy expert consultation with the representative of the applicant and the technical inspector involved (e.g. on the energy compliance of the built-in materials) — preparation of final energy audit and certification after the physical completion of the project. In addition, in parallel with the implementation of the project’s energy project, the building energy parameters of the institutions of the settlement will be assessed and tested in the framework of an energy expert service, and after the data processing they will be recorded in the NÉeR. The aim of the survey is to ensure that these recorded data are already available in a structured way as base data during the preparation of a future regional or county SEAP or SECAP study. In the course of the development, the nursery building of the Municipality of Héhalom will be upgraded. Replacement of doors and windows is necessary in accordance with Annex 5 of Decree No 7/2006, i.e. the cost-optimal requirement level (the criteria values can be found after the proposal for the delimitation structure). Replacement of existing facade doors and windows (which are below the requirements in its energy parameters) for windows with a heat transfer factor Uwmax = 1.15 W/m2K, together with necessary demolitions, restorations and system accessories. The installation of modern, well-sealed doors and windows can cause a lower number of air exchange and thus a lack of fresh air and humidity problems. In order to avoid this, we recommend the installation of air inlets that are vapor-controlled (and fixed in the case of rooms with gas-fired appliances). Retrospective external thermal insulation The design of ex-post thermal insulation on the external side is necessary in accordance with Annex 5 of Decree No 7/2006, i.e. the cost-optimal requirement level. The thermal insulation of facade walls is made of 15 cm vtg.,?=0.04 W/mK thermal conductivity factor, using a thermal insulation system (the stone wall requires rock wool) together with the necessary demolitions, restorations and system accessories, with a non-heat bridge (or maximum heat bridge loss factor of 0.002 W/K) plastic ensemble. Thermal insulation of the attic ceiling using a thermal insulation system of 25 cm vtg.,?=0.04 W/mK thermal conductivity factor. Replacement of an outdated, constant temperature gas boiler in the building for a condensation gas boiler with automatic programmable heating control and the installation of thermostatic radiator valves to reduce losses due to inaccuracy of performance and heat demand. The replacement and modernisation of the current domestic hot water production equipment is not justified for reasons of cost-effectiveness due to low hot water consumption. Renewable energy-based systems Installing a solar system regenerating to the grid to reduce/replace electricity in the building, with the following parameters: Characteristics of the intended system: Peak performance (estimated): 5,5 kWp Average energy yield (estimated): 965 kWh/kWp Annual energy yield (estimated): 5 310 kWh/year The calculation has been made with polycrystalline solar modules with a peak power of 275 Wp, the system shall include the inverters accepted by the power supplier, the support structures needed to attach the solar panels to the roof, the DC and AC overvoltage protections. During implementation, in accordance with the specifications of the project, the accessibility of the project will be carried out. The planned project fits the National Energy Strategy 2030, Hungary II. National Energy Efficiency Action Plan and National Building Energy Strategy. The investment contributes to the reduction of GHG emissions from institutions run by municipalities (English)
9 February 2022
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Héhalom, Nógrád
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Identifiers
TOP-3.2.1-16-NG1-2017-00005
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