Fulltext results:
- Passive House schools – How to go about it @planning:non-residential_passive_house_buildings:passive_house_schools
- nsulation cost-efficiently and then for, example, use less insulation for the external walls. In genera... ents_for_windows|Passive House windows]]** \\ The use of Passive House windows with **U<sub>w</sub> les... perature asymmetries can be excluded (e.g. by the use of heaters near the windows). [{{ :picopen:ther... 20 m³ per person and hour** during the period of use. Most importantly, the system must satisfy the cr
- Baseline study - implementing the Passive House concept in hospitals @planning:non-residential_passive_house_buildings:ph_hospitals
- rea. \\ An analysis of guidelines shows that the use of tried and tested energy-saving technologies fa... pital anyway. A closer analysis of processes that use low-temperature waste heat shows that the additio... terms of primary energy, to just a fraction. The use of waste heat from inefficient processes and devi... nvestigation shows that it pays to take a look at use-specific energy applications not taken into accou
- Passive House Schools - Boundary Conditions @planning:non-residential_passive_house_buildings:passive_house_schools
- have to be planned are considerably higher during use due to the increased number of persons present in... subsequent purging periods ensue before and after use for hygiene reasons. The easiest solution is to use __time control__.**\\ \\ A direct result of the de... on system have to be restricted to the periods of use or the air quantities should at least be greatly
- Energy use for heating in a well insulated new building @planning:thermal_protection:thermal_protection_works
- ====== Energy use for heating in a well insulated new building ====== Here is further evidence that in... prox. 160 kWh/(m²yr).\\ All other values: energy use for heating measured in the terraced house in Dar... says it all: * Existing buildings in Germany use an average of 160 kWh of fuel (oil or gas) for he... ld be considerably higher and the expected energy use would increase accordingly. During the first year
- Introduction: Retail stores as Passive Houses @planning:non-residential_passive_house_buildings
- between 0.1 and 2 m<sup>-1</sup>. \\ The type of use may also vary greatly. The main difference is bet... e based solely on any specific, currently planned use, but rather other future uses should also be take... ven if windows exist, lights are almost always in use regardless of the availability of natural light./... se an optimal presentation of goods are used. The use of daylight for some part of the day, which would
- Prospects for the modernisation of existing buildings using highly efficient components @planning:refurbishment_with_passive_house_components
- ponents#Literature|[Feist 2003] ]] focuses on the use of highly energy-efficient building components fo... . Originally, these components were developed for use in new constructions. In order to make full use of innovative technology like compact heat pump units ... /m²) in new constructions therefore justifies the use of particularly efficient components. For this re
- Internal heat gains in relation to living area @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- unately. Below, as well as in the PHPP 9, we will use the data from Germany. [{{picopen:average_occupan... ilability of the dissipated heat depending on the use must be taken into account. If this is done and t... I points out that it is not permissible at all to use such high values for the planning of Passive Hous... which the standard values for IHG for residential use will result. However, the high values calculated
- Non-residential Passive House buildings
- g this standard and experiences gained from their use are now available: The Passive House Standards al... e able to ensure consistency and also because the use of a building is often not permanent and not alwa... ranging from light-duty, slightly extended office use to heavily ventilated buildings with very strong ... on later on is also influenced by actual building use. In non-residential buildings, control parameters
- Component guidelines for cost-optimal Passive Houses and EnerPHit retrofits
- by 2020 (read more), in your country through the use of Passive House components and Renewable Energie... age|Read more about PHPP...]] \\ \\ ===== How to use the map in general ===== **Scroll over the count... vidual shading situation.// \\ \\ ===== How do I use the map for component guidelines for my project? ... ners: Enter the project geometry in PHPP. (If you use SketchUp, you can do this via the NEW plugin Desi
- Tools
- ssive House Planning Package (PHPP) is an easy-to-use planning tool for energy efficiency, for the use of architects and planning experts. The reliability of the calculation results and ease of use of this planning tool has already been experience... l aids in the preparation of measurement data for use in the energy balancing with PHPP|EN, DE| | ::: |
- Airtightness measurements in Passive Houses @planning:airtight_construction
- lculation and documentation, it can be helpful to use the "room data", which is included as an addition... seded standards EN 13829 and the current ISO 9972 use different designations in some places. For a bett... |**Method 1**\\ In the PHPP the state of building use during normal operation is relevant for the energ... mally there is no difference between Method 1 (in use) and Method 2 (building envelope test) in the cas
- Step-by-step Retrofits towards EnerPHit Standard in social housing in Spain @planning:refurbishment_with_passive_house_components
- llation • Conditioning of the interior spaces to use them as a work place or office • Old coal boiler... s will be undertaken in case the owners decide to use the building as a family house. The analysis of ... the last months, could reduce the central heating use drastically with simple measures that most of the... reduction of central heating and air conditioning use must be encouraged by the government. A strict co
- Comparison of energy performance of ventilation systems using passive vs. active heat recovery @planning:building_services:ventilation
- passive heat recovery systems by heat pumps which use the extract air as a heat source to heat the supp... erence system. Both the passive and active system use fans with a total consumption of 0.45 Wh/m³. The ... °C). Note that it is generally not recommended to use simple heat recovery ventilators with direct elec... 1.png?800 |**Figure 1: Comparison of final energy use of different investigated systems (including fros
- Passive House swimming pools @planning:non-residential_passive_house_buildings:swimming_pools
- as fine tuning operation once the building is in use. The Passive House appraoch provides an opportuni... l experience from the first pilot projects and in-use performance monitoring, the Passive House Institu... identify further energy saving potentials, the in-use energy performance of the pool was monitored in d... public in 2011. Similarly to the Lippe Bad the in-use performance was monitored in detail for the first
- Airtightness and airtightness measurement @planning:refurbishment_with_passive_house_components:thermal_envelope
- level of airtightness is the basis for: * the use of a variable demand-oriented ventilation (functi... . Measurements should take place in the state of use. This means that during the preparation of the bu... materials. In principle it should be possible to use these materials without any joints or to seal the... tion for lightweight constructions is the “double use” of the vapour barrier [[.:airtightness:special_f
- Aspects of efficient ventilation in hospitals @planning:non-residential_passive_house_buildings:ph_hospitals
- Component Award 2016: Affordable ventilation solutions for retrofits @planning:refurbishment_with_passive_house_components
- Building Integrated Photovoltaics (BIPV) in Step by Step Retrofitting Projects @planning:refurbishment_with_passive_house_components
- Economic analysis for the retrofit of a detached single family house to the EnerPHit standard @planning:refurbishment_with_passive_house_components
- Checklist: Test reports of airtightness measurements @planning:airtight_construction:general_principles
- Overall retrofit plan for step-by-step retrofits to EnerPHit Standard @planning:refurbishment_with_passive_house_components
- Step-by-step deep retrofit and building integrated façade/roof on a 'million program' house @planning:refurbishment_with_passive_house_components
- PHPP - validated and proven in practice @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Variant calculations and economic assessment with PHPP 9 @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Ventilation in commercial kitchens @planning:non-residential_passive_house_buildings:cafeterias_and_commercial_kitchens
- Influence of retrofitting on daylighting @planning:refurbishment_with_passive_house_components:mechanical_systems
- Experience with drain water heat recovery @planning:building_services:heating_and_dhw:experience_with_drain_water_heat_recovery
- Refurbishment with Passive House components - introduction @planning:refurbishment_with_passive_house_components
- Floor Replacement: Svartbäcksvägen @planning:refurbishment_with_passive_house_components:thermal_envelope