basics:passive_houses_in_different_climates:introduction
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basics:passive_houses_in_different_climates:introduction [2016/06/15 11:57] – francis.bosenick@passiv.de | basics:passive_houses_in_different_climates:introduction [2019/02/28 09:33] (current) – cblagojevic | ||
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- | |**The principle remains the same - the details have to be adapted.** \\ \\ This statement can be taken as the general rule governing the design of Passive | + | |**The principle remains the same - the details have to be adapted.** \\ \\ This statement can be taken as the general rule governing the design of Passive |
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- | ===== Passive | + | ===== Passive |
- | In Central European Climate there is a lot of practical experience on how to build Passive | + | In Central European Climate there is a lot of practical experience on how to build Passive |
* there is a specific building tradition in every country and | * there is a specific building tradition in every country and | ||
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* there are specific climatic boundary conditions in every region. | * there are specific climatic boundary conditions in every region. | ||
- | Therefore, the specific solution for a Passive House has to be adapted to the country and the climate under consideration. | + | Therefore, the specific solution for a Passive House building |
On the other hand: The goals are the same in all climates and for all countries. Also, physics is the same all around the world. So the problem to build almost self sufficient houses (i.e. Passive Houses) is well defined. The physical equations are the same - only the boundary conditions vary. Thus the solution method can well be applied independently of the circumstances in order to find the appropriate way of Passive House design in a specific country and climate. | On the other hand: The goals are the same in all climates and for all countries. Also, physics is the same all around the world. So the problem to build almost self sufficient houses (i.e. Passive Houses) is well defined. The physical equations are the same - only the boundary conditions vary. Thus the solution method can well be applied independently of the circumstances in order to find the appropriate way of Passive House design in a specific country and climate. | ||
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- | ===== Passive | + | ===== Passive |
It is a lucky coincidence: | It is a lucky coincidence: | ||
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For the case of heating or cooling, this means to radically reduce the peak load by means of insulation, heat recovery, highly insulating windows, passive solar design and other measures. When the peak heating load reaches the value of 10 W/m², independently of the climate, the ventilation system may easily be used for heating. No other heat distribution system than just the air supplied for excellent indoor air quality is required any more. | For the case of heating or cooling, this means to radically reduce the peak load by means of insulation, heat recovery, highly insulating windows, passive solar design and other measures. When the peak heating load reaches the value of 10 W/m², independently of the climate, the ventilation system may easily be used for heating. No other heat distribution system than just the air supplied for excellent indoor air quality is required any more. | ||
- | Thus, the [[[[basics: | + | Thus, the [[[[basics: |
And the same applies for cooling: Passive measures are to be chosen to reduce the peak cooling load: proper size and quality of windows and shading and the reduction of the internal heat loads by using highly energy efficient equipment. Again, the remaining small amount of cooling energy which might still be needed can be delivered by cooling of the fresh air supply required for good indoor air quality anyhow (see [[basics: | And the same applies for cooling: Passive measures are to be chosen to reduce the peak cooling load: proper size and quality of windows and shading and the reduction of the internal heat loads by using highly energy efficient equipment. Again, the remaining small amount of cooling energy which might still be needed can be delivered by cooling of the fresh air supply required for good indoor air quality anyhow (see [[basics: | ||
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* You should keep comfort at a high level. Passive Houses should be well known as the most comfortable houses - in any country and within any climate. Be aware that all persons would like to live in a comfortable indoor climate and that all of them should have a right to do so. Therefore, in the long run, no solution will persist which will not contribute to a better indoor climate. | * You should keep comfort at a high level. Passive Houses should be well known as the most comfortable houses - in any country and within any climate. Be aware that all persons would like to live in a comfortable indoor climate and that all of them should have a right to do so. Therefore, in the long run, no solution will persist which will not contribute to a better indoor climate. | ||
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* The solution should be simpler than ordinary buildings/ | * The solution should be simpler than ordinary buildings/ | ||
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* It is not necessary that the solution will not need any conventional energy demand ('zero energy solution' | * It is not necessary that the solution will not need any conventional energy demand ('zero energy solution' | ||
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* Insulation might be a good idea in all climates. | * Insulation might be a good idea in all climates. | ||
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* Shading will be absolutely necessary in all climates with high solar radiation during Summer. | * Shading will be absolutely necessary in all climates with high solar radiation during Summer. | ||
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* Heat recovery will be necessary in all cold and in all hot climates. If the houses have a ventilation system, which will be a good idea if external temperature will be lower than 8 °C or higher than 32 °C in a relevant time period, the supply air ducts may well be used to transport heat during the heating season, cool air during the hot periods and dry air to dehumidify if necessary. | * Heat recovery will be necessary in all cold and in all hot climates. If the houses have a ventilation system, which will be a good idea if external temperature will be lower than 8 °C or higher than 32 °C in a relevant time period, the supply air ducts may well be used to transport heat during the heating season, cool air during the hot periods and dry air to dehumidify if necessary. | ||
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* Using very low amounts of auxiliary energy is an important precondition for passive solutions. The fans in ventilation systems, for example, must use highly efficient electronically commutated motors. This is obvious in the case of recovery of cooling energy, but it is necessary in systems for heat recovery, too. On the other hand - don't hesitate to use a ventilator; moving air requires much less energy than heating or cooling it significantly. | * Using very low amounts of auxiliary energy is an important precondition for passive solutions. The fans in ventilation systems, for example, must use highly efficient electronically commutated motors. This is obvious in the case of recovery of cooling energy, but it is necessary in systems for heat recovery, too. On the other hand - don't hesitate to use a ventilator; moving air requires much less energy than heating or cooling it significantly. | ||
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* In many cases the ground can be used as a heat or cold buffer. Vernacular architecture in a country may indicate whether ground coupled systems are an opportunity. The traditional solution may be very expensive, however - like huge air channels or earth buried houses; that will not be a solution reproducible for the future. But there are less expensive solutions using modern technology like earth buried ducts or ground probes. | * In many cases the ground can be used as a heat or cold buffer. Vernacular architecture in a country may indicate whether ground coupled systems are an opportunity. The traditional solution may be very expensive, however - like huge air channels or earth buried houses; that will not be a solution reproducible for the future. But there are less expensive solutions using modern technology like earth buried ducts or ground probes. | ||
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basics/passive_houses_in_different_climates/introduction.txt · Last modified: 2019/02/28 09:33 by cblagojevic