Fulltext results:
- PB 41: Planning tools for the summer situation in non-residential buildings @phi_publications:pb_41
- second part, calculation of the frequency of overheating, i.e. the number of hours in a year where the ind... =====2 Active cooling ===== ==== 2.1 Prologue: heating ==== [{{:picopen:41_11.jpg?nolink&600 |**Figure ... 1: The principle of the energy balance method for heating: Indoor temperatures in a non-residential buildin... e PHPP or the DIN V 18599, which calculates the heating balance by means of a specified balance boundary
- Energy efficiency of the Passive House Standard: Expectations confirmed by measurements in practice @operation:operation_and_experience:measurement_results
- value for the consumption, as is usually done for heating cost invoices). [{{ :picopen:statistik_nieder... in existing housing stock in Germany. If a space heating value of 112 kWh/(m²a) is used as the current (20... e value for Germany, corresponding to the average heating consumption in apartment buildings that are invoi... \ **(88% ± 1%) in savings compared to the average heating consumption in Germany**\\ \\ \\ ===== 1.2. Pa
- List of articles from the Research Group for Cost-effective Passive Houses @phi_publications
- Cost-effectiveness of energy efficiency for space heating - separately and in combination| |2021|56|Energie... d ventilation | Façade-integrated ventilation and heating system with heat pump | |2018 |54 | Neue Ko... ble air-to-air heat pump as a supply solution for heating and cooling: Initial experiences | |2018 |53 ... r energy efficient buildings | Influences on the heating energy consumption and reasons for differences be
- The Passive House in summer @basics
- e ===== The question of low-energy buildings overheating in summer "due to their high level of insulation"... 943 h. This is equivalent to a frequency of overheating events of **h<sub>θ>25°C</sub> = 10.77%**. This frequency of overheating events is a **good indicator of the summertime c... **__Fig. 9__**//) shows that the frequency of overheating events becomes extremely small: h<sub>θ>25°C</sub
- Heating load in Passive Houses @basics:building_physics_-_basics
- ====== Heating load in Passive Houses ====== Due to their extremely high level of energy efficiency, the heating demand in Passive Houses (typically no higher tha... ings [AkkP-28]. Yet a particular building’s exact heating demand, guaranteed to be low in any case, is real... ilding functions properly. \\ In this sense, the heating load is the decisive factor: a certain amount of
- Passive House – the next decade | Determining application-specific PER factors @basics:passive_house_-_assuring_a_sustainable_energy_supply:passive_house_the_next_decade
- ncreases costs for the applications that need it (heating, e.g.) because of high losses; this problem can a... s significant seasonal fluctuations, such as when heating drops to zero for several months at a time. Energ... n a dwelling except for power used for hot water, heating, and air conditioning; in other words, electricit... cade#references|[AkkP 49]]]. The heat pump has a (heating) water storage with a usable volume of 260 liters
- The world’s first Passive House, Darmstadt-Kranichstein, Germany @examples:residential_buildings:multi-family_buildings:central_europe
- efined as buildings which have an extremely small heating energy demand even in the Central European climate and therefore need no active heating. Such houses can be kept warm "passively", solely... ering through the windows as well as by a minimal heating of incoming fresh air((We show at another place that this is possible if the maxial heating load is kept below 1o W/m²(useful area) in a resi
- "Saving energy" in the sense of sufficiency @efficiency_now
- ed((Most people are surprised that e.g. the space heating demand in Passive Houses is only about one tenth ... reduction ==== This measure is easy to achieve: heating less and lowering temperatures during winter alwa... ions). This can include: * setting the average heating temperature to a lower level * temporarily decreasing the heating temperature and frequency * applying partial he
- Heating and DHW @planning:building_services
- ====== Heating and DHW ====== A fundamental prerequisite for sustainable energy supply for the purpose of heating is the high level of energy efficiency of the Passive House with its reduced heating demand in comparison with conventional new buildings. ===== Heating and DHW systems - overview ===== Experiences with
- Zero-energy and zero heating energy houses @basics:energy_and_ecology
- ====== Zero-energy and zero heating energy houses ====== ===== Foreword ===== The very first zero-energy ... ost-efficient highly insulated houses without any heating systems, called Passive Houses, constitute the st... nmental problems relating to energy use for space heating could be so simple. Against this background, the ... [[Basics:Energy and ecology:Zero-energy and zero heating energy houses#Literature|[KORSGAARD 1976] ]], [[B
- Compact HVAC systems @planning:building_services
- Compact HVAC systems ====== ===== General idea - Heating and cooling via the hygienically required fresh a... t capacity of fresh air). In a Passive House, the heating power requirement is extremely small - so small t... an be met by the 10 W/m² provided by a supply air heating system. Similarly this concept also applies for t... le building services systems for Passive Houses: “heating via ventilation systems”, without the need for ad
- The Passive House - definition @basics
- comfort (ISO 7730) can be achieved solely by post-heating or post-cooling of the fresh air mass, which is r... n Passive Houses this system can also be used for heating purposes, without the need for additional ducts, ... ce the ventilation system costs just as much as a heating system – a double investment which hardly pays of... will become a low-energy house with conventional heating; or on the heating system by using the ventilatio
- Thermal insulation @planning:thermal_protection
- ===== In low-energy buildings in climates with a heating demand the entire **building envelope** has to be... the air temperature, irrespective of the type of heating used. This leads to a very high level of [[basic... tly well based on these calculations. In terms of heating, they require as little as 10 percent of the ener... l central European buildings: about 1.5 litres of heating oil per square metre and year compared with 15 or
- Don’t save on the insulation @planning:thermal_protection
- reased and there are better options for effective heating. These are the advantages of good insulation whic... e the best proof of that: they hardly require any heating energy ([[Operation:Operation and Experience:Meas... /(m²K) | 0.125 W/(m²K) | ^Annual demand for heating oil\\ (per 1 m² wall)(( Calculation basis: average location in Germany with 3250 heating degree days at an indoor temperature of 20 °C and
- Articles in the member area @start:become_a_member
- enging_connection_details_and_their_impact_on_the_heating_demand]]| |[[planning:thermal_protection:windows:... efficiency analysis based on billed costs]]| ==== Heating and DHW ==== |[[planning:building_services:heating_and_dhw:heating:passive_house_heating_systems_in_practice|]]|\\ |[[planning:building_services:heating_and_
- Classic, Plus, Premium: The Passive House classes and how they can be reached @certification:passive_house_categories
- PER-factors for electricity use: Location & application specific decarbonisation @certification:passive_house_categories
- Comparison of energy performance of ventilation systems using passive vs. active heat recovery @planning:building_services:ventilation
- Philips Experimental House Research 1974ff: Passive versus Active Measures in Europe & America @basics:the_passive_house_-_historical_review
- Step-by-step Retrofits towards EnerPHit Standard in social housing in Spain @planning:refurbishment_with_passive_house_components
- Riedberg Passive House School, Frankfurt, Germany @examples:non-residential_buildings:passive_house_schools
- Passive House schools – How to go about it @planning:non-residential_passive_house_buildings:passive_house_schools
- Sound generation, sound dispersion and sound proofing in heat pumps @planning:building_services:heating_and_dhw:heating:heat_pumps
- Passive House and the Sustainable Development Goals (SDGs): Connecting an international building standard with global aims @basics
- Baseline study - implementing the Passive House concept in hospitals @planning:non-residential_passive_house_buildings:ph_hospitals
- Introduction - Passive House buildings in different climates @basics:passive_houses_in_different_climates
- PHPP - validated and proven in practice @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Energy use for heating in a well insulated new building @planning:thermal_protection:thermal_protection_works
- Passive House Schools - Boundary Conditions @planning:non-residential_passive_house_buildings:passive_house_schools
- Refurbishment with Passive House components - introduction @planning:refurbishment_with_passive_house_components
- Prospects for the modernisation of existing buildings using highly efficient components @planning:refurbishment_with_passive_house_components
- Certification of buildings in which the ground floor is used for commercial purposes (for PHPP 9, revised 5-Sep-2016) @certification
- Life Cycle energy balances, Embodied energy and the Passive House Standard @basics:energy_and_ecology
- Factors that influence the energy balance and affordability of non-residential EnerPHit projects @basics:affordability:investing_in_energy_efficiency:economic_feasibility_of_passive_house_retrofits
- Economic analysis for the retrofit of a detached single family house to the EnerPHit standard @planning:refurbishment_with_passive_house_components
- Overall retrofit plan for step-by-step retrofits to EnerPHit Standard @planning:refurbishment_with_passive_house_components
- Experience with drain water heat recovery @planning:building_services:heating_and_dhw:experience_with_drain_water_heat_recovery
- Certification of terraced houses and semi-detached/duplex houses according to Passive House Institute criteria @certification
- Electric Energy Efficiency for Households – Doing the whole step towards energy efficiency @sinfonia
- Step-by-step deep retrofit and building integrated façade/roof on a 'million program' house @planning:refurbishment_with_passive_house_components
- Passive House – the next decade | Methodology @basics:passive_house_-_assuring_a_sustainable_energy_supply:passive_house_the_next_decade
- PHPP calculations in hot and humid climates @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Lengdorf nursery school, Germany @examples:non-residential_buildings:passive_house_kindergartens:central_europe
- Efficiency of household appliances and their impact on the primary energy demand of residential buildings @basics:passive_house_-_assuring_a_sustainable_energy_supply
- Building Integrated Photovoltaics (BIPV) in Step by Step Retrofitting Projects @planning:refurbishment_with_passive_house_components
- Passive House - 6 reasons why you still need opening windows @planning:building_services:ventilation
- Calculation guide for temperature reduction factors to temperature zone "X" in the PHPP "Areas" worksheet @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Internal heat gains in relation to living area @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Insulation works – Evidence no.1 "Measurements at a highly insulated wall" @planning:thermal_protection:thermal_protection_works
- Renewable primary energy demand in residential buildings with high energy intensity @basics:passive_house_-_assuring_a_sustainable_energy_supply
- The promotion of low energy construction and the Passive House Standard: Successful strategies for forming a Passive House Association @experiences:connecting_the_passive_house_community
- Component Award 2016: Affordable ventilation solutions for retrofits @planning:refurbishment_with_passive_house_components
- “designPH” plugin for Trimble Sketchup @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
- Airtightness and airtightness measurement @planning:refurbishment_with_passive_house_components:thermal_envelope