The Frisse utility building (Q3988785): Difference between revisions
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This project involves a new collaboration for the construction and validation of a fully-fledged prototype of the first Frisse utility building. This will be built with unique new lime hemp building elements and technology. The development, complete construction and monitoring of the prototype will take 22 months. In this project many things will be tested and validated under realistic practical conditions.The project consortium for this project consists of: 4)Brands Bouwgroep BV from Groningen is the consignor and applicant5)Van Nieuwenhoven Zwarteveen VOF from Wolvega is project partner6)Hempflax BV from Oude Pekela is project partnerFrisse buildings ensure:•Saving on energy (cost saving),•Low air pollution (reduction of CO2 emissions/greenhouse effect),•Reduction of the use of fossil raw materials.A healthy indoor environment ensures:•Reduction of health complaints from users of the building, • Less sick leave of users of the building,•Increasing well-being and improving performance of users of the building.One of the project partners, Van Nieuwenhoven Zwarteveen VOF is far-reaching with the development of a completely new sustainable biobased walking in the base made of lime hemp. This material ensures a good peel of the property due to its very good insulation value. Special about this completely new very durable material is that it works moisture-regulating and can bind CO2. The new fresh utility building will be built according to completely new design based on these new wall elements for exterior and interior walls. The indoor climate will then be carefully measured. The new sustainable building from the foundations will prove the concept of the fresh utility building in this project. The main objective is to validate a fully-fledged prototype of the fresh utility building based on unique new lime hemp building elements and building technology. Testing under realistic practical conditions will allow the concept to be validated.Sub-objectives are: by means of measurements, the insulation value, ventilation value and degree of moisture regulation quantify the lime hemp panels and the fresh utility building as a whole.The project results consist of:•Provide that the new construction method with lime hemp panels is feasible•Delivery of a prototype fresh utility building based on lime hemp panels•Data on moisture values and temperature in the building under realistic conditions•Data on the coupling of the panels to form a closed shell of the building•Data on CO2 values in the building•Show that the new construction method is saved on technical installations in the building (expectation: 5-10 % compared to installation costs traditional utility building) The project contributes to societal issues related to bioeconomy and energy. Fossil raw materials are replaced by biobased raw materials, namely lime mortar and hemp plants. Traditional concrete costs a relatively high amount of raw materials, energy and water to produce.Healthy indoor environmentThe building uses as much as possible natural and healthy materials that do not have a negative effect on the indoor climate (no toxic constituents). Natural ventilation and daylight are starting points in the design. The use of lime hemp walls creates a vapor opening and thus breathable skin. This contributes to good natural moisture regulation, cash and pleasant temperature and good acoustics in the building. Lower energy consumptionResearch has clearly indicated that there is a direct relationship between a better indoor environment and energy saving. In addition, high energy consumption ultimately results in high CO2 emissions and is therefore far from fresh. The lower the EPC, the lower the energy consumption and the lower the CO2 emissions. A truly fresh utility building is at least 15 % better than the EPC in the current building decision. Within the RIS3, four specific societal challenges have been identified. The collaborating project partners make a contribution with this project to all four objectives!•Definite, clean and efficient energy•Health, demography and well-being,•Clean, safe water supply • Food security, sustainable agriculture and bioeconomy (English) | |||||||||||||||
| Property / summary: This project involves a new collaboration for the construction and validation of a fully-fledged prototype of the first Frisse utility building. This will be built with unique new lime hemp building elements and technology. The development, complete construction and monitoring of the prototype will take 22 months. In this project many things will be tested and validated under realistic practical conditions.The project consortium for this project consists of: 4)Brands Bouwgroep BV from Groningen is the consignor and applicant5)Van Nieuwenhoven Zwarteveen VOF from Wolvega is project partner6)Hempflax BV from Oude Pekela is project partnerFrisse buildings ensure:•Saving on energy (cost saving),•Low air pollution (reduction of CO2 emissions/greenhouse effect),•Reduction of the use of fossil raw materials.A healthy indoor environment ensures:•Reduction of health complaints from users of the building, • Less sick leave of users of the building,•Increasing well-being and improving performance of users of the building.One of the project partners, Van Nieuwenhoven Zwarteveen VOF is far-reaching with the development of a completely new sustainable biobased walking in the base made of lime hemp. This material ensures a good peel of the property due to its very good insulation value. Special about this completely new very durable material is that it works moisture-regulating and can bind CO2. The new fresh utility building will be built according to completely new design based on these new wall elements for exterior and interior walls. The indoor climate will then be carefully measured. The new sustainable building from the foundations will prove the concept of the fresh utility building in this project. The main objective is to validate a fully-fledged prototype of the fresh utility building based on unique new lime hemp building elements and building technology. Testing under realistic practical conditions will allow the concept to be validated.Sub-objectives are: by means of measurements, the insulation value, ventilation value and degree of moisture regulation quantify the lime hemp panels and the fresh utility building as a whole.The project results consist of:•Provide that the new construction method with lime hemp panels is feasible•Delivery of a prototype fresh utility building based on lime hemp panels•Data on moisture values and temperature in the building under realistic conditions•Data on the coupling of the panels to form a closed shell of the building•Data on CO2 values in the building•Show that the new construction method is saved on technical installations in the building (expectation: 5-10 % compared to installation costs traditional utility building) The project contributes to societal issues related to bioeconomy and energy. Fossil raw materials are replaced by biobased raw materials, namely lime mortar and hemp plants. Traditional concrete costs a relatively high amount of raw materials, energy and water to produce.Healthy indoor environmentThe building uses as much as possible natural and healthy materials that do not have a negative effect on the indoor climate (no toxic constituents). Natural ventilation and daylight are starting points in the design. The use of lime hemp walls creates a vapor opening and thus breathable skin. This contributes to good natural moisture regulation, cash and pleasant temperature and good acoustics in the building. Lower energy consumptionResearch has clearly indicated that there is a direct relationship between a better indoor environment and energy saving. In addition, high energy consumption ultimately results in high CO2 emissions and is therefore far from fresh. The lower the EPC, the lower the energy consumption and the lower the CO2 emissions. A truly fresh utility building is at least 15 % better than the EPC in the current building decision. Within the RIS3, four specific societal challenges have been identified. The collaborating project partners make a contribution with this project to all four objectives!•Definite, clean and efficient energy•Health, demography and well-being,•Clean, safe water supply • Food security, sustainable agriculture and bioeconomy (English) / rank | |||||||||||||||
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| Property / summary: This project involves a new collaboration for the construction and validation of a fully-fledged prototype of the first Frisse utility building. This will be built with unique new lime hemp building elements and technology. The development, complete construction and monitoring of the prototype will take 22 months. In this project many things will be tested and validated under realistic practical conditions.The project consortium for this project consists of: 4)Brands Bouwgroep BV from Groningen is the consignor and applicant5)Van Nieuwenhoven Zwarteveen VOF from Wolvega is project partner6)Hempflax BV from Oude Pekela is project partnerFrisse buildings ensure:•Saving on energy (cost saving),•Low air pollution (reduction of CO2 emissions/greenhouse effect),•Reduction of the use of fossil raw materials.A healthy indoor environment ensures:•Reduction of health complaints from users of the building, • Less sick leave of users of the building,•Increasing well-being and improving performance of users of the building.One of the project partners, Van Nieuwenhoven Zwarteveen VOF is far-reaching with the development of a completely new sustainable biobased walking in the base made of lime hemp. This material ensures a good peel of the property due to its very good insulation value. Special about this completely new very durable material is that it works moisture-regulating and can bind CO2. The new fresh utility building will be built according to completely new design based on these new wall elements for exterior and interior walls. The indoor climate will then be carefully measured. The new sustainable building from the foundations will prove the concept of the fresh utility building in this project. The main objective is to validate a fully-fledged prototype of the fresh utility building based on unique new lime hemp building elements and building technology. Testing under realistic practical conditions will allow the concept to be validated.Sub-objectives are: by means of measurements, the insulation value, ventilation value and degree of moisture regulation quantify the lime hemp panels and the fresh utility building as a whole.The project results consist of:•Provide that the new construction method with lime hemp panels is feasible•Delivery of a prototype fresh utility building based on lime hemp panels•Data on moisture values and temperature in the building under realistic conditions•Data on the coupling of the panels to form a closed shell of the building•Data on CO2 values in the building•Show that the new construction method is saved on technical installations in the building (expectation: 5-10 % compared to installation costs traditional utility building) The project contributes to societal issues related to bioeconomy and energy. Fossil raw materials are replaced by biobased raw materials, namely lime mortar and hemp plants. Traditional concrete costs a relatively high amount of raw materials, energy and water to produce.Healthy indoor environmentThe building uses as much as possible natural and healthy materials that do not have a negative effect on the indoor climate (no toxic constituents). Natural ventilation and daylight are starting points in the design. The use of lime hemp walls creates a vapor opening and thus breathable skin. This contributes to good natural moisture regulation, cash and pleasant temperature and good acoustics in the building. Lower energy consumptionResearch has clearly indicated that there is a direct relationship between a better indoor environment and energy saving. In addition, high energy consumption ultimately results in high CO2 emissions and is therefore far from fresh. The lower the EPC, the lower the energy consumption and the lower the CO2 emissions. A truly fresh utility building is at least 15 % better than the EPC in the current building decision. Within the RIS3, four specific societal challenges have been identified. The collaborating project partners make a contribution with this project to all four objectives!•Definite, clean and efficient energy•Health, demography and well-being,•Clean, safe water supply • Food security, sustainable agriculture and bioeconomy (English) / qualifier | |||||||||||||||
point in time: 15 December 2021
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Revision as of 06:19, 15 December 2021
Project Q3988785 in Netherlands
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | The Frisse utility building |
Project Q3988785 in Netherlands |
Statements
0.0 Euro
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0.0 Euro
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37.85 percent
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2 September 2016
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30 June 2018
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Brands Bouwgroep B.V.
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52°46'21.65"N, 6°55'17.22"E
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53°6'37.15"N, 7°1'25.79"E
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52°52'7.61"N, 5°59'24.65"E
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7821 AG
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9665 AL
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8471 TW
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Het betreft in dit project een nieuwe samenwerking voor de bouw en validatie van een volwaardig prototype van het eerste Frisse Utiliteitsgebouw. Deze zal gebouwd worden met unieke nieuwe kalkhennep bouwelementen en -techniek. De ontwikkeling, volledige bouw en monitoring van het prototype zal 22 maanden in beslag nemen. In dit project zullen vele zaken in realistische praktijkomstandigheden getest en gevalideerd kunnen worden.Het projectconsortium voor dit project bestaat uit: 4)Brands Bouwgroep BV uit Groningen is de penvoerder en aanvrager5)Van Nieuwenhoven Zwarteveen VOF uit Wolvega is projectpartner6)Hempflax BV uit Oude Pekela is projectpartnerFrisse gebouwen zorgen voor:•Besparing op de energie (kostenbesparing),•Minder luchtvervuiling (beperking CO2-uitstoot/broeikaseffect),•Vermindering van het gebruik van fossiele grondstoffen.Een gezond binnenmilieu zorgt voor:•Verlaging gezondheidsklachten van gebruikers van het pand,•Minder ziekteverzuim van gebruikers van het pand,•Verhoging welzijn en verbetering prestaties van gebruikers van het pand.Een van de projectpartners, Van Nieuwenhoven Zwarteveen VOF is verregaande met de ontwikkeling van een volledig nieuw duurzaam biobased wandelement in de basis vervaardigd van kalkhennep. Dit materiaal zorgt voor een goede schil van het pand vanwege de zeer goede isolatiewaarde. Bijzonder aan dit volledig nieuwe zeer duurzame materiaal is dat dit vochtregulerend werkt en CO2 kan binden.Het nieuwe frisse utiliteitsgebouw zal volgens volledig nieuw ontwerp op basis van deze nieuwe wandelementen voor buitenzijde en binnenwanden gebouwd worden. Het binnenklimaat zal vervolgens zorgvuldig bemeten worden. Het nieuwe duurzame gebouw vanaf de fundamenten zal in dit project het concept van het frisse utiliteitsgebouw bewijzen.Hoofddoelstelling is de validatie van een volwaardig prototype van het frisse utiliteitsgebouw op basis van unieke nieuwe kalkhennep bouwelementen en bouwtechniek. Door middel van testen in realistische praktijkomstandigheden zal het concept gevalideerd kunnen worden.Subdoelen zijn: door middel van metingen de isolatiewaarde, ventilatiewaarde en mate van vochtregulatie kwantificeren van de kalkhenneppanelen en het frisse utiliteitsgebouw als geheel.De projectresultaten bestaan uit:•Bewijs dat de nieuwe bouwmethode met kalkhenneppanelen uitvoerbaar is•Oplevering van een prototype frisse utiliteitsgebouw op basis van kalkhennep panelen•Data over vochtwaardes en temperatuur in het pand onder realistische omstandigheden•Data over koppeling van de panelen tot vormen van een gesloten schil van het gebouw•Data over CO2-waardes in het pand•Aantonen dat met de nieuwe bouwmethode wordt bespaard op technische installaties in het gebouw (verwachting: 5-10% ten opzichte van installatiekosten traditioneel utiliteitsgebouw)Het project draagt bij aan maatschappelijke vraagstukken omtrent bio-economie en energie. Er worden fossiele grondstoffen vervangen door biobased grondstoffen namelijk kalkmortel en hennepplanten. Traditioneel beton kost relatief veel grondstoffen, energie en water om te produceren.Gezond binnenmilieuIn het gebouw wordt zoveel als mogelijk gebruik gemaakt van natuurlijke en gezonde materialen die geen negatief effect hebben op het binnenklimaat (geen toxische bestanddelen). Natuurlijke ventilatie en daglicht zijn uitgangspunten in het ontwerp. Door gebruik te maken van kalkhennep wanden ontstaat een dampopen en dus ademende schil. Dit draagt bij aan een goede natuurlijke vochtregulering, contante en aangename temperatuur en goede akoestiek in het gebouw. Lager energieverbruikOnderzoek heeft onomstotelijk aangegeven dat er een directe relatie is tussen een beter binnenmilieu en energiebesparing. Daar komt bij, dat een hoog energiegebruik uiteindelijk een hoge uitstoot van CO2 tot gevolg heeft en dus verre van fris is. Hoe lager de EPC, hoe lager het energiegebruik en hoe lager de uitstoot van CO2. Een echt frisse utiliteitsgebouw is op zijn minst 15 % beter dan de EPC in het huidige bouwbesluit.Binnen de RIS3 zijn een viertal specifieke maatschappelijke uitdagingen geformuleerd. De samenwerkende projectpartners leveren met dit project naar hun overtuiging een bijdrage aan alle vier doelstellingen!•Zekere, schone en efficiënte energie•Gezondheid, demografie en welzijn,•Schone, veilige watervoorziening •Voedselzekerheid, duurzame landbouw en bio-economie (Dutch)
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This project involves a new collaboration for the construction and validation of a fully-fledged prototype of the first Frisse utility building. This will be built with unique new lime hemp building elements and technology. The development, complete construction and monitoring of the prototype will take 22 months. In this project many things will be tested and validated under realistic practical conditions.The project consortium for this project consists of: 4)Brands Bouwgroep BV from Groningen is the consignor and applicant5)Van Nieuwenhoven Zwarteveen VOF from Wolvega is project partner6)Hempflax BV from Oude Pekela is project partnerFrisse buildings ensure:•Saving on energy (cost saving),•Low air pollution (reduction of CO2 emissions/greenhouse effect),•Reduction of the use of fossil raw materials.A healthy indoor environment ensures:•Reduction of health complaints from users of the building, • Less sick leave of users of the building,•Increasing well-being and improving performance of users of the building.One of the project partners, Van Nieuwenhoven Zwarteveen VOF is far-reaching with the development of a completely new sustainable biobased walking in the base made of lime hemp. This material ensures a good peel of the property due to its very good insulation value. Special about this completely new very durable material is that it works moisture-regulating and can bind CO2. The new fresh utility building will be built according to completely new design based on these new wall elements for exterior and interior walls. The indoor climate will then be carefully measured. The new sustainable building from the foundations will prove the concept of the fresh utility building in this project. The main objective is to validate a fully-fledged prototype of the fresh utility building based on unique new lime hemp building elements and building technology. Testing under realistic practical conditions will allow the concept to be validated.Sub-objectives are: by means of measurements, the insulation value, ventilation value and degree of moisture regulation quantify the lime hemp panels and the fresh utility building as a whole.The project results consist of:•Provide that the new construction method with lime hemp panels is feasible•Delivery of a prototype fresh utility building based on lime hemp panels•Data on moisture values and temperature in the building under realistic conditions•Data on the coupling of the panels to form a closed shell of the building•Data on CO2 values in the building•Show that the new construction method is saved on technical installations in the building (expectation: 5-10 % compared to installation costs traditional utility building) The project contributes to societal issues related to bioeconomy and energy. Fossil raw materials are replaced by biobased raw materials, namely lime mortar and hemp plants. Traditional concrete costs a relatively high amount of raw materials, energy and water to produce.Healthy indoor environmentThe building uses as much as possible natural and healthy materials that do not have a negative effect on the indoor climate (no toxic constituents). Natural ventilation and daylight are starting points in the design. The use of lime hemp walls creates a vapor opening and thus breathable skin. This contributes to good natural moisture regulation, cash and pleasant temperature and good acoustics in the building. Lower energy consumptionResearch has clearly indicated that there is a direct relationship between a better indoor environment and energy saving. In addition, high energy consumption ultimately results in high CO2 emissions and is therefore far from fresh. The lower the EPC, the lower the energy consumption and the lower the CO2 emissions. A truly fresh utility building is at least 15 % better than the EPC in the current building decision. Within the RIS3, four specific societal challenges have been identified. The collaborating project partners make a contribution with this project to all four objectives!•Definite, clean and efficient energy•Health, demography and well-being,•Clean, safe water supply • Food security, sustainable agriculture and bioeconomy (English)
15 December 2021
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Identifiers
OP-2014-2023-Noord-OPSNN0131
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