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		+	{{Fraunhofer_Webfarm_Wikititel
		+	| Titel=Technology Database
		+	| Introtext= The Design4Energy project aims to address evolutionary life-cycle evolutionary design methodology able to create energy-efficient buildings flexibly connected with the neighbourhood energy system. The project also aims to allow stakeholders to predict the current and future energy efficiency of buildings at both the individual and neighbourhood levels. The ultimate purpose of the project is to enable all parties to make better informed decissions in optimising the energy performance at the building life-cycle level, including operation and maintenance.
		+	|
		+	|
		+	}}
		+	{{#ask:[[BelongsTo::{{FULLPAGENAME}}]]
		+	|?Producer
		+	|?Model
		+	|?Performance
		+	|format=tagcloud
		+	|limit=250
		+	|link=all
		+	|headers=show
		+	|searchlabel=… further results
		+	|tagorder=alphabetical
		+	|increase=log
		+	|widget=sphere
		+	|font=sans
		+	|height=250
		+	|width=800
		+	|mincount=1
		+	|minsize=70
		+	|maxsize=220
		+	|maxtags=500
		+	}}
		+
		+	{| border="0" width=100% heigth=80%
		+	|__TOC__
		+	|
		+	{{#ask:[[Category:Energy Systems]]
		+	|?
		+	|format=tagcloud
		+	|limit=250
		+	|link=all
		+	|headers=show
		+	|searchlabel=… further results
		+	|tagorder=alphabetical
		+	|increase=log
		+	|widget=sphere
		+	|font=sans
		+	|height=250
		+	|width=600
		+	|mincount=1
		+	|minsize=70
		+	|maxsize=220
		+	|maxtags=500
		+	}}
		+	|}
		+	<br>
		+
		+
		+	<p>
		+
		+	== Introduction ==
		+
		+	The Design4Energy project aims to address evolutionary life-cycle evolutionary design methodology able to create energy-efficient buildings flexibly connected with the neighbourhood energy system.
		+
		+	The project also aims to allow stakeholders to predict the current and future energy efficiency of buildings at both the individual and neighbourhood levels. The ultimate purpose of the project is to enable all parties to make better informed decissions in optimising the energy performance at the building life-cycle level, including operation and maintenance.
		+	<br><br>
		+	[[Image:StatImage_opt.png]]
		+	<br>
		+	<br>
	{{Fraunhofer_Webfarm_Wikititel		{{Fraunhofer_Webfarm_Wikititel
	| Titel=Technology Database		| Titel=Technology Database
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	==Technology Radar==		==Technology Radar==
	<categorytree mode=pages showcount=on style="font-size: small;">Energy Systems</categorytree>		<categorytree mode=pages showcount=on style="font-size: small;">Energy Systems</categorytree>
		+
		+
		+	==T_Radar Chart ==
		+	<pTradar size=1000x700 legend>
		+	,strong,1,middle,2,low,3,none,532
		+	Energy Systems,relevence,class,importance
		+
		+	</pTradar>
		+
		+	== Updates ==
		+
		+	Design4Energy continues to further develop, please be patient as we research current, new and emerging technologies over the coming weeks.
		+
		+	[[Form:200.750.jpg|right|alt=http://pixabay.com/de/digitale-kunst-stadt-st%C3%A4dte-182223/]]
		+
		+	== Building Benchmarks ==
		+
		+	<categorytree mode=pages showcount=on style="font-size: small;">Buildings</categorytree>
	{{#ask:		{{#ask:
−	[[Category:Energy Systems]]	+	[[Category:Buildings]]
−	|? relevence	+	|? Description
−	|? importance	+	|? Conditioned national reference floor area
−	|? class	+	|? Conditioned floor area calculated
−	|sort=relevence,relevence,class	+	|? thermal bridging
−	|order=asc,desc	+	|format=datatables
−	}}	+	}}
		+
		+	== Energy Systems ==
		+
		+	<categorytree mode=pages showcount=on style="font-size: small;">HVAC technologies</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Lighting</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Renewable Energies</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Heat Pumps</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Boiler</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Energy Storage</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Energy Distribution</categorytree>
		+
		+	== Building Components ==
		+
		+	<categorytree mode=pages showcount=on style="font-size: small;">Beam</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Ceiling</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Column</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">External door</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Internal door</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Skylight</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Slab</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Wall</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Window</categorytree>
		+	<categorytree mode=pages showcount=on style="font-size: small;">Material</categorytree>
		+
		+	== Shortcuts ==
		+
		+	* [[Special:Forms|create new Page]]
		+	* [[Special:CreateProperty|create property (via form)]]
		+
		+	* [[Special:Templates]]
		+	* [[Special:Categories]]
		+	* [[Special:Properties]]
		+
		+	* [[http://plm.iao.fraunhofer.de/mediawiki/index.php?title=MediaWiki:Sidebar&action=edit Change Navigation]]
		+
		+	<!-- Create Category: {{#button:http://plm.iao.fraunhofer.de/mediawiki/index.php?title=Special%3ACategories}}
		+
		+	Create Template: {{#button:http://plm.iao.fraunhofer.de/mediawiki/index.php?title=Special%3ATemplates}} -->
		+
		+	== For Developers ==
		+
		+	[http://plm.iao.fraunhofer.de/mediawiki/index.php?title=Page1 VisualsPage]
		+	<categorytree mode=pages showcount=on style="font-size: small;">jscript</categorytree>
		+
	==T_Radar Chart ==		==T_Radar Chart ==
	<pTradar size=1000x700 legend>		<pTradar size=1000x700 legend>

---

Revision as of 02:20, 22 November 2016

Technology Database

The Design4Energy project aims to address evolutionary life-cycle evolutionary design methodology able to create energy-efficient buildings flexibly connected with the neighbourhood energy system. The project also aims to allow stakeholders to predict the current and future energy efficiency of buildings at both the individual and neighbourhood levels. The ultimate purpose of the project is to enable all parties to make better informed decissions in optimising the energy performance at the building life-cycle level, including operation and maintenance.

Contents 1 Introduction 2 Introduction 3 Technology Radar 4 T_Radar Chart 5 Updates 6 Building Benchmarks 7 Energy Systems 8 Building Components 9 Shortcuts 10 For Developers 11 T_Radar Chart 12 Updates 13 Building Benchmarks 14 Energy Systems 15 Building Components 16 Shortcuts 17 For Developers

Loading... Air/Water-Brine/Water Heat Pump Air Source Heat Pump Air Source Heat Pump (ASHP) Biomass Boiler Compact Fluorescent Lamp Compact Fluorescent Lamps (CFLs) Condensing Boiler (Gas) Condensing Boiler (Oil) Conventional Radiators Desiccant Cooling System (DCS) Electrical Storage Evacuated Tube Collectors Exhaust Air-Air Heat Pump Exhaust Air-Water Heat Pump Exhaust Air Heat Pump (EAHP) Fan Coil Flat Plate Collectors Fuel Cell Ground Source Heat Pump (GSHP) Heat Recovery Ventilation (HRV) High-Efficiency Combination Boilers Hybrid Heat Pump (HHP) Incandescent Lightning LED Lighting LED Tubes Lithium Ion Battery (Li-ion) Micro Wind Turbines Mini CHP Photovoltaics (PV) (Amorphous (thin-film)) Photovoltaics (PV) (Monocrystalline/polycrystalline (or multicrystalline)) Radiant Heating Radiant Heating/Cooling System Recirculation Rock-Air Heat Pump Rock-Water Heat Pump Single-Pass Small Air Handling Unit Small Solar Thermal Collector (STC) Small Wind Turbines (Horizontal Axis) Small Wind Turbines (Vertical Axis) Sodium Nickel Chloride Battery (NaNiCl) Soil-Air Heat Pump Soil-Water Heat Pump Solar-Assisted Heat Pump (SAHP) Solar Inverter Solar Thermal Collector (STC) Sorption cooling system Sulphur Plasma Lighting Thermal Storage Ventilation: Context-sensitive regulation Water-Air Heat Pump Water-Water Heat Pump Water Source Heat Pump Water Source Heat Pump (WSHP)

Introduction

The Design4Energy project aims to address evolutionary life-cycle evolutionary design methodology able to create energy-efficient buildings flexibly connected with the neighbourhood energy system.

The project also aims to allow stakeholders to predict the current and future energy efficiency of buildings at both the individual and neighbourhood levels. The ultimate purpose of the project is to enable all parties to make better informed decissions in optimising the energy performance at the building life-cycle level, including operation and maintenance.

Technology Database

The Design4Energy project aims to address evolutionary life-cycle evolutionary design methodology able to create energy-efficient buildings flexibly connected with the neighbourhood energy system. The project also aims to allow stakeholders to predict the current and future energy efficiency of buildings at both the individual and neighbourhood levels. The ultimate purpose of the project is to enable all parties to make better informed decissions in optimising the energy performance at the building life-cycle level, including operation and maintenance.

Loading... Air/Water-Brine/Water Heat Pump Air Source Heat Pump Air Source Heat Pump (ASHP) Biomass Boiler Compact Fluorescent Lamp Compact Fluorescent Lamps (CFLs) Condensing Boiler (Gas) Condensing Boiler (Oil) Conventional Radiators Desiccant Cooling System (DCS) Electrical Storage Evacuated Tube Collectors Exhaust Air-Air Heat Pump Exhaust Air-Water Heat Pump Exhaust Air Heat Pump (EAHP) Fan Coil Flat Plate Collectors Fuel Cell Ground Source Heat Pump (GSHP) Heat Recovery Ventilation (HRV) High-Efficiency Combination Boilers Hybrid Heat Pump (HHP) Incandescent Lightning LED Lighting LED Tubes Lithium Ion Battery (Li-ion) Micro Wind Turbines Mini CHP Photovoltaics (PV) (Amorphous (thin-film)) Photovoltaics (PV) (Monocrystalline/polycrystalline (or multicrystalline)) Radiant Heating Radiant Heating/Cooling System Recirculation Rock-Air Heat Pump Rock-Water Heat Pump Single-Pass Small Air Handling Unit Small Solar Thermal Collector (STC) Small Wind Turbines (Horizontal Axis) Small Wind Turbines (Vertical Axis) Sodium Nickel Chloride Battery (NaNiCl) Soil-Air Heat Pump Soil-Water Heat Pump Solar-Assisted Heat Pump (SAHP) Solar Inverter Solar Thermal Collector (STC) Sorption cooling system Sulphur Plasma Lighting Thermal Storage Ventilation: Context-sensitive regulation Water-Air Heat Pump Water-Water Heat Pump Water Source Heat Pump Water Source Heat Pump (WSHP)

<p>

Introduction

The Design4Energy project aims to address evolutionary life-cycle evolutionary design methodology able to create energy-efficient buildings flexibly connected with the neighbourhood energy system.

The project also aims to allow stakeholders to predict the current and future energy efficiency of buildings at both the individual and neighbourhood levels. The ultimate purpose of the project is to enable all parties to make better informed decissions in optimising the energy performance at the building life-cycle level, including operation and maintenance.

Technology Radar

T_Radar Chart

Updates

Design4Energy continues to further develop, please be patient as we research current, new and emerging technologies over the coming weeks.

Building Benchmarks

	Description	Conditioned national reference floor area	Conditioned floor area calculated	Thermal bridging
Examplary Building A	Apartment block, average building from data energy certificates	1119.12 m²	895.269 m²	Medium
Examplary Building B	One-family house with oil central heating system	2319.12 m²	2095.269 m²	Low

Energy Systems

Building Components

Shortcuts

• create new Page
• create property (via form)

• Special:Templates
• Special:Categories
• Special:Properties

• [Change Navigation]

For Developers

VisualsPage

T_Radar Chart

Updates

Design4Energy continues to further develop, please be patient as we research current, new and emerging technologies over the coming weeks.

Building Benchmarks

	Description	Conditioned national reference floor area	Conditioned floor area calculated	Thermal bridging
Examplary Building A	Apartment block, average building from data energy certificates	1119.12 m²	895.269 m²	Medium
Examplary Building B	One-family house with oil central heating system	2319.12 m²	2095.269 m²	Low

Energy Systems

Building Components

Shortcuts

• create new Page
• create property (via form)

• Special:Templates
• Special:Categories
• Special:Properties

• [Change Navigation]

For Developers

VisualsPage