User Tools

Site Tools


start

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
start [2016/08/24 10:14]
wfeist repair addi. brackets
start [2017/07/06 18:16] (current)
alang
Line 13: Line 13:
 [[examples:​residential_buildings:​Multi-family buildings:​Central Europe:The world’s first Passive House, Darmstadt-Kranichstein,​ Germany|tried and true construction concept]] that can be applied by anyone, anywhere. \\ [[examples:​residential_buildings:​Multi-family buildings:​Central Europe:The world’s first Passive House, Darmstadt-Kranichstein,​ Germany|tried and true construction concept]] that can be applied by anyone, anywhere. \\
  
-Yet, a Passive House is much more than "​just"​ a low-energy building: \\+Yet, a Passive House building ​is much more than "​just"​ a low-energy building: \\
  
-  * Passive ​Houses ​allow for space heating and cooling related energy savings of up to 90% compared with typical building stock and over 75% compared to average new builds. Passive ​Houses ​use less than 1.5 l of oil or 1.5 m<​sup>​3</​sup>​ of gas to heat one square meter of living space for a year – substantially less than common “low-energy” buildings. Vast energy savings have been demonstrated in [[basics:​passive_houses_in_different_climates:​passive_houses_in_mediterranean_climate|warm climates]] where typical buildings also require active cooling.  +  * Passive ​House buildings ​allow for space heating and cooling related energy savings of up to 90% compared with typical building stock and over 75% compared to average new builds. Passive ​House buildings ​use less than 1.5 l of oil or 1.5 m<​sup>​3</​sup>​ of gas to heat one square meter of living space for a year – substantially less than common “low-energy” buildings. Vast energy savings have been demonstrated in [[basics:​passive_houses_in_different_climates:​passive_houses_in_mediterranean_climate|warm climates]] where typical buildings also require active cooling.  
-  * Passive ​Houses ​make efficient use of the sun, internal heat sources and heat recovery, rendering conventional heating systems unnecessary throughout even the coldest of winters. [[basics:​summer|During warmer months]], Passive ​Houses ​make use of passive cooling techniques such as strategic shading to keep comfortably cool. +  * Passive ​House buildings ​make efficient use of the sun, internal heat sources and heat recovery, rendering conventional heating systems unnecessary throughout even the coldest of winters. [[basics:​summer|During warmer months]], Passive ​House buildings ​make use of passive cooling techniques such as strategic shading to keep them comfortably cool. 
-  * Passive ​Houses ​are praised for the high level of [[basics:​building_physics_-_basics:​thermal_comfort|comfort]] they offer. Internal surface temperatures vary little from indoor air temperatures,​ even in the face of extreme outdoor temperatures. Appropriate [[planning:​thermal_protection:​windows|windows]] and a [[planning:​thermal_protection:​integrated_thermal_protection|building envelope]] consisting of a highly insulated roof and floor slab as well as highly insulated exterior walls keep the desired warmth in the house – or undesirable heat out.+  * Passive ​House buildings ​are praised for the high level of [[basics:​building_physics_-_basics:​thermal_comfort|comfort]] they offer. Internal surface temperatures vary little from indoor air temperatures,​ even in the face of extreme outdoor temperatures. Appropriate [[planning:​thermal_protection:​windows|windows]] and a [[planning:​thermal_protection:​integrated_thermal_protection|building envelope]] consisting of a highly insulated roof and floor slab as well as highly insulated exterior walls keep the desired warmth in the house – or undesirable heat out.
   * A [[planning:​building_services:​ventilation:​basics:​types_of_ventilation#​The convenient solution: supply and exhaust air systems with heat recovery|ventilation system]] imperceptibly supplies constant fresh air, making for superior air quality without unpleasant draughts. A highly efficient heat recovery unit allows for the heat contained in the exhaust air to be re-used. \\   * A [[planning:​building_services:​ventilation:​basics:​types_of_ventilation#​The convenient solution: supply and exhaust air systems with heat recovery|ventilation system]] imperceptibly supplies constant fresh air, making for superior air quality without unpleasant draughts. A highly efficient heat recovery unit allows for the heat contained in the exhaust air to be re-used. \\
  
start.txt · Last modified: 2017/07/06 18:16 by alang