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  • basics:building_physics_-_basics (19)
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  • basics:passive_house_-_assuring_a_sustainable_energy_supply (6)
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Matching pagenames:

  • Building physics - basics
  • Passive House and the Sustainable Development Goals (SDGs): Connecting an international building standard with global aims
  • Passive House buildings in different climates
  • Renewable primary energy demand in residential buildings with high energy intensity
  • Life cycle cost analysis of energy interventions in 18 reference buildings
  • Heat transfer
  • Heating load in Passive Houses
  • Thermal comfort
  • What defines thermal bridge free design?
  • Efficiency of household appliances and their impact on the primary energy demand of residential buildings
  • Renewable primary energy demand in residential buildings with high energy intensity
  • Introduction - Passive House buildings in different climates
  • Economy and financing of efficiency: new buildings, renovation and step by step retrofit
  • Thermal Bridges
  • Thermal bridge calculation
  • Definition and effects of thermal bridges
  • Thermal Bridges Catalogue
  • Adaptive versus Heat Balance Comfort Models
  • Local thermal comfort
  • Thermal comfort parameters
  • Basic principle for calculating thermal bridges
  • Examples of thermal bridge calculations
  • Software for calculating thermal bridges
  • Exterior wall on floor slab
  • Heated basement
  • Interior walls on floor slabs
  • Unheated basement
  • Special features and characteristics of components in contact with the ground
  • Recommended procedure for calculating thermal bridges of components in contact with the ground

Fulltext results:

Passive House and the Sustainable Development Goals (SDGs): Connecting an international building standard with global aims
39 Hits, Last modified: 4 years ago
lopment Goals (SDGs): Connecting an international building standard with global aims====== Author: Giorgia ... efficient, resilient, and healthy environment for building users. * Economic and job creation: Boosting th... providing job opportunities across a spectrum of building professionals, ranging from manufacturing and con... s, through high energy efficiency. * Education: Building capacity and spreading knowledge, both locally an
Economic feasibility of Passive House design @basics:affordability
36 Hits, Last modified: 6 years ago
he idea behind the conception of energy efficient building design is to reduce energy consumption costs (and... nses e.g. for maintenance) during lifetime of the building significantly. But to get the savings, some extra... ment cost which are probably needed to get better building components to form the energy efficient building envelope: * more and better thermal insulation layer
Definition and effects of thermal bridges @basics:building_physics_-_basics:thermal_bridges
29 Hits, Last modified: 3 years ago
\ A **thermal bridge** is a localised area of the building envelope where the heat flow is different (usuall... rst case this can lead to moisture penetration in building components and mould growth. * **Altered**, ... enter round box 60%> If the criteria for [[basics:building_physics_-_basics:what_defines_thermal_bridge_free... alculating the heat energy balance.\\ \\ [[basics:building_physics_-_basics:what_defines_thermal_bridge_free
What is a Passive House?
25 Hits, Last modified: 3 years ago
pen:heating_energy_savings_diagram_e.jpg?300}} A building standard that is truly **energy efficient**, **co... t, a Passive House is more than just a low-energy building.\\ \\ * Passive House buildings allow for heati... energy savings of up to 90% compared with typical building stock and over 75% compared with average new buil... of comfort. They use **energy sources inside the building** such as the body heat from the residents or sol
The Passive House in summer
24 Hits, Last modified: 4 years ago
ures and low humidities during night). **Thermal building simulations** are used to determine the summer ch... influences, as dealt with below, for his/her own building project by using this and thus achieve a comfortable summer climate by designing the building professionally.\\ \\ ===== Methodical basis: building simulation, house model ===== The **instationary si
Planning criteria for Passive Houses in New Zealand @basics:passive_houses_in_different_climates
21 Hits, Last modified: 6 years ago
assive House concept is a highly energy efficient building standard. Passive Houses consume very little ener... ire year. This is achieved with a vastly improved building envelope with reduced transmission losses and opt... good indoor air quality or, as the case may be, a building that does not need any active air conditioning at... hermal and hygric behaviour of a selected example building with varying parameters was studied by means of d
Life cycle cost analysis of energy interventions in 18 reference buildings @basics:affordability
20 Hits, Last modified: 6 years ago
phase of considering improvements in an existing building, the decision makers involved often have no idea ... figures can be provided when tied to a particular building type. For example, all apartments of a particular... eport on only one possible renovation package per building type. Looking from the PassREg-perspective this p... ide deployment of deep renovation. There are some building types, however, for which the more effective reno
Internal heat capacity
19 Hits, Last modified: 4 years ago
e overall (effective) internal heat capacity of a building influences the temperature processes in rooms. T... o represent realistic operating conditions in the building. At the same time, this implies that the simulation is based on the whole building, the course of a whole year (based on a reference... such a simulation. However, the assumption that a building is heated to at least 20 °C in winter, for exampl
What defines thermal bridge free design? @basics:building_physics_-_basics
18 Hits, Last modified: 3 years ago
hat defines thermal bridge free design? ====== A building envelope is considered to be free of thermal brid... ssion losses under consideration of all [[basics:building_physics_-_basics:thermal_bridges:thermal_bridge_d... nal surfaces and regular U-values of the standard building elements alone. Regularly occurring thermal bridges in standard building components must already be taken into account in
Thermal bridge calculation @basics:building_physics_-_basics:thermal_bridges
18 Hits, Last modified: 12 months ago
====== Thermal bridge calculation ====== [[basics:building_physics_-_basics:thermal_bridges:thermal_bridge_d... entifying in more detail the heat losses from the building envelope. In highly efficient buildings such as P... d. In ideal cases this is referred to as [[basics:building_physics_-_basics:what_defines_thermal_bridge_free... sses}}] ====== Introduction ====== * [[basics:building_physics_-_basics:thermal_bridges:thermal_bridge_d
Special features and characteristics of components in contact with the ground @basics:building_physics_-_basics:thermal_bridges:tbcalculation:ground_contact
18 Hits, Last modified: 4 years ago
it is helpful if the effect of the ground on the building envelope is known, especially in terms of setting... h the ground ===== The thermal interactions of a building with its surroundings are very complex. This app... Heat flow through the individual components of a building is determined by the temperature difference betwe... cause the condition of the surfaces bordering the building (pathways, car parking, lawns etc.) is usually un
Heating load in Passive Houses @basics:building_physics_-_basics
17 Hits, Last modified: 6 years ago
verified time and again in field measurements: by building to the Passive House Standard, it is actually pos... onventional buildings [AkkP-28]. Yet a particular building’s exact heating demand, guaranteed to be low in a... really secondary to ensuring that a Passive House building functions properly. \\ In this sense, the heatin... rt via the supply air coming from a Passive House building’s ventilation system. The ventilation system thus
Primary Energy Renewable PER @basics:energy_and_ecology
16 Hits, Last modified: 15 months ago
ng_fig_2.png?250|**Fig 2: The net-zero Low energy building (LEH) has a lot of PV, both on the roof and the f... ust also be accounted for. (Example: a low energy building in a cool temperate climate, all electricity for ... open:per_landing_fig_3.png?250|**Fig. 3: The same building as a Passive House: a winter gap remains but it ... nd is only 20 % when compared with the low energy building.**}}]|[{{:picopen:per_landing_fig_4.png?250|**Fig
The Passive House - definition
15 Hits, Last modified: 7 years ago
n is as follows:\\ \\ > **//"A Passive House is a building, for which thermal comfort (ISO 7730) can be achi... pt:\\ * All airtight buildings (any low-energy building needs to be airtight), except those in so called ... es]]", require the use of an efficient [[planning:building_services:ventilation:basics:types_of_ventilation|... stalling an exhaust system only; in this case the building will become a low-energy house with conventional
Are Passive Houses cost-effective? @basics:affordability:investing_in_energy_efficiency
14 Hits, Last modified: 3 years ago
e reduced because increased airtightness prevents building damage, the repair of which is much more expensiv... onsideration period has been set as 30 years; the building components used will function at least this long.... r\\ 30 years, there will be the “golden end“: the building loan will\\ have been paid off by then and the fa... rrently costs € 14000 “more” than an ordinary new building, then 75 % of this € 14000 is rendered as **trade
Renewable primary energy demand in residential buildings with high energy intensity
13 Hits, Last modified: 5 years ago
The Passive House – historical review
13 Hits, Last modified: 3 years ago
Primary energy – quantifying sustainability @basics:energy_and_ecology
13 Hits, Last modified: 5 years ago
Renewable primary energy demand in residential buildings with high energy intensity @basics:passive_house_-_assuring_a_sustainable_energy_supply
13 Hits, Last modified: 5 years ago
Local thermal comfort @basics:building_physics_-_basics:thermal_comfort
13 Hits, Last modified: 6 years ago
Building physics - basics
10 Hits, Last modified: 3 years ago
Zero-energy and zero heating energy houses @basics:energy_and_ecology
9 Hits, Last modified: 6 years ago
Efficiency of household appliances and their impact on the primary energy demand of residential buildings @basics:passive_house_-_assuring_a_sustainable_energy_supply
9 Hits, Last modified: 5 years ago
Passive House – the next decade | Determining application-specific PER factors @basics:passive_house_-_assuring_a_sustainable_energy_supply:passive_house_the_next_decade
9 Hits, Last modified: 15 months ago
Energy efficiency – the key to future energy supply
7 Hits, Last modified: 3 years ago
Thermal comfort @basics:building_physics_-_basics
7 Hits, Last modified: 3 years ago
Economy and financing of efficiency: new buildings, renovation and step by step retrofit @basics:affordability:investing_in_energy_efficiency
7 Hits, Last modified: 6 years ago
Superior thermal protection is affordable @basics:affordability:investing_in_energy_efficiency
7 Hits, Last modified: 6 years ago
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
7 Hits, Last modified: 7 years ago
Basic principle for calculating thermal bridges @basics:building_physics_-_basics:thermal_bridges:tbcalculation
7 Hits, Last modified: 3 years ago
Life Cycle energy balances, Embodied energy and the Passive House Standard @basics:energy_and_ecology
6 Hits, Last modified: 4 years ago
Passive House – On-grid or Off-grid? @basics:passive_house_-_assuring_a_sustainable_energy_supply
6 Hits, Last modified: 5 years ago
Thermal comfort parameters @basics:building_physics_-_basics:thermal_comfort
6 Hits, Last modified: 5 years ago
Examples of thermal bridge calculations @basics:building_physics_-_basics:thermal_bridges:tbcalculation
6 Hits, Last modified: 6 years ago
Unheated basement @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
6 Hits, Last modified: 3 years ago
Philips Experimental House Research 1974ff: Passive versus Active Measures in Europe & America @basics:the_passive_house_-_historical_review
5 Hits, Last modified: 5 years ago
Exterior wall on floor slab @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
5 Hits, Last modified: 3 years ago
Heated basement @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
5 Hits, Last modified: 3 years ago
Interior walls on floor slabs @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
5 Hits, Last modified: 4 years ago
Energy and ecology
4 Hits, Last modified: 11 months ago
Passive House buildings in different climates
4 Hits, Last modified: 3 years ago
Heat transfer @basics:building_physics_-_basics
4 Hits, Last modified: 3 years ago
Passive Houses in hot, humid climates @basics:passive_houses_in_different_climates
4 Hits, Last modified: 7 years ago
Introduction - Passive House buildings in different climates @basics:passive_houses_in_different_climates
4 Hits, Last modified: 6 years ago
Software for calculating thermal bridges @basics:building_physics_-_basics:thermal_bridges:tbcalculation
4 Hits, Last modified: 3 years ago
Affordability
3 Hits, Last modified: 20 months ago
Passive House - Assuring a sustainable energy supply
2 Hits, Last modified: 15 months ago
Passive House – the next decade @basics:passive_house_-_assuring_a_sustainable_energy_supply
2 Hits, Last modified: 15 months ago
Adaptive versus Heat Balance Comfort Models @basics:building_physics_-_basics:thermal_comfort
2 Hits, Last modified: 6 years ago
Passive House – the next decade | Methodology @basics:passive_house_-_assuring_a_sustainable_energy_supply:passive_house_the_next_decade
2 Hits, Last modified: 15 months ago
Greenhouse effect and climate protection @basics:energy_and_ecology
1 Hits, Last modified: 5 years ago
Renewable sources of energy @basics:energy_and_ecology
1 Hits, Last modified: 6 years ago
Cost-effectiveness analysis @basics:affordability:investing_in_energy_efficiency
1 Hits, Last modified: 6 years ago
Thermal Bridges Catalogue @basics:building_physics_-_basics:thermal_bridges
1 Hits, Last modified: 12 months ago
Recommended procedure for calculating thermal bridges of components in contact with the ground @basics:building_physics_-_basics:thermal_bridges:tbcalculation:ground_contact
1 Hits, Last modified: 6 years ago

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