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planning:tools [2025/08/29 15:07] yaling.hsiao@passiv.deplanning:tools [2025/09/03 12:51] (current) mpatyna
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 |**[[.:thermal_envelope|Thermal envelope]]** |**[[.:temperature_reduction_factors_for_unheated_or_partially_heated_extensions|]]** |Calculation tool for temperature reduction factors to temperature zone "X" in the PHPP "Areas" worksheet.|EN, DE| |**[[.:thermal_envelope|Thermal envelope]]** |**[[.:temperature_reduction_factors_for_unheated_or_partially_heated_extensions|]]** |Calculation tool for temperature reduction factors to temperature zone "X" in the PHPP "Areas" worksheet.|EN, DE|
 | ::: |**[[.:tools:manufacturing_energy_evaluation_tool|MEET (outPHit Manufacturing Energy Evaluation Tool)]]** |The tool will be new add-on to the Passive House Planning Package (PHPP) and can be used to assess and compare single materials regarding manufacturing energy and CO<sub>2</sub>, opaque assemblies regarding manufacturing and operational energy as well as CO<sub>2</sub>.|EN| | ::: |**[[.:tools:manufacturing_energy_evaluation_tool|MEET (outPHit Manufacturing Energy Evaluation Tool)]]** |The tool will be new add-on to the Passive House Planning Package (PHPP) and can be used to assess and compare single materials regarding manufacturing energy and CO<sub>2</sub>, opaque assemblies regarding manufacturing and operational energy as well as CO<sub>2</sub>.|EN|
-| ::: |**[[planning:tools:meet_online|MEET]]<sub>[[planning:tools:meet_online|online]]</sub> ** |With the user-friendly tools **MEET<sub>online</sub> ** [[https://database.passivehouse.com/en/toolkit/meet/assembly-comparison/|Building Assembly Comparison]] and **MEET<sub>online</sub> ** [[https://database.passivehouse.com/en/toolkit/meet/building-lca/|Building Lifecycle Analysis Calculator]], you can quickly conduct an ecological life cycle assessment (including CO<sub>2</sub>). The **Building Assembly Comparison **allows you to compare exterior building components and assess the impact of thermal insulation. In contrast, the **Building Lifecycle Analysis Calculator** evaluates the entire building concept, including interior components, building technology, and PV systems.|EN, DE| +| ::: |**[[.:tools:meet_online|MEET]]<sub>[[.:tools:meet_online|online]]</sub> ** |With the user-friendly tools **MEET<sub>online</sub> ** [[https://database.passivehouse.com/en/toolkit/meet/assembly-comparison/|Building Assembly Comparison]] and **MEET<sub>online</sub> ** [[https://database.passivehouse.com/en/toolkit/meet/building-lca/|Building Lifecycle Analysis Calculator]], you can quickly conduct an ecological life cycle assessment (including CO<sub>2</sub>). The **Building Assembly Comparison **allows you to compare exterior building components and assess the impact of thermal insulation. In contrast, the **Building Lifecycle Analysis Calculator** evaluates the entire building concept, including interior components, building technology, and PV systems.|EN, DE| 
-| ::: |**[[.:tools:Deep Renovation Guidelines Kit|Deep Renovation Guidelines Kit)]]** |TAB|TBA|+| ::: |**[[.:tools:deep_renovation_guidelines_kit|]]** |Guidelines and tools to support decision-making for deep retrofits. Includes four tools, a material properties table, and a comprehensive set of guidelines.|EN, DE, and others|
 |**[[.:thermal_bridges|Thermal bridges]]** |**[[.:calculation_of_heat_losses_of_drain_pipes|]]** |This tool enables a more accurate calculation of heat losses from internal drain pipes for wastewater and stormwater.|EN, DE| |**[[.:thermal_bridges|Thermal bridges]]** |**[[.:calculation_of_heat_losses_of_drain_pipes|]]** |This tool enables a more accurate calculation of heat losses from internal drain pipes for wastewater and stormwater.|EN, DE|
 | ::: |**[[.:thermal_bridge_tool|]]** |The user can play with different inputs for standard generic component connections, receiving straightforward feedback, which allows fast optimisation.|EN| | ::: |**[[.:thermal_bridge_tool|]]** |The user can play with different inputs for standard generic component connections, receiving straightforward feedback, which allows fast optimisation.|EN|
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 |**Others** |**[[https://database.passivehouse.com/de/download/product_page/ipconversion|IP Conversion]]** |Conversion of units between the imperial (IP) and metric (SI) system.|EN| |**Others** |**[[https://database.passivehouse.com/de/download/product_page/ipconversion|IP Conversion]]** |Conversion of units between the imperial (IP) and metric (SI) system.|EN|
 | ::: |**[[.:water_vapour|Saturation densities of vapour in air]]** |This tool gives values for the stauration water vapour density dependent on tempearture.|EN, DE| | ::: |**[[.:water_vapour|Saturation densities of vapour in air]]** |This tool gives values for the stauration water vapour density dependent on tempearture.|EN, DE|
-| ::: |**[[.:sound_protection_tools_and_calculations|]]** |This tool is intended as aid for approximate calculation and dimensioning of sound protection measures by the designer.|DE|+| ::: |**[[.:sound_protection_tools_and_calculations|]]** |This tool is intended as aid for approximate calculation and dimensioning of sound protection measures by the designer.|DE, EN is being revised|
 | ::: |**[[.:tools:outphit_decision_support_tool|DESUTO (outPHit Decision Support Tool)]]** |With the Decision Support Tool, outPHit helps with the planning of energy-related improvements and is intended to facilitate the first steps towards refurbishment.|EN| | ::: |**[[.:tools:outphit_decision_support_tool|DESUTO (outPHit Decision Support Tool)]]** |With the Decision Support Tool, outPHit helps with the planning of energy-related improvements and is intended to facilitate the first steps towards refurbishment.|EN|
 | ::: |**[[.:tools:outphit_pv_economy_evaluation|PVecon (outPHit PV Economy Evaluation)]]** |This tool to assess PV self-consumption potential of a building, the possibility to improve the self-consumption ratio by temporary storing PV electricity within a building, and supports to evaluate the economic potential of selling PV to the grid.|EN, DE, and others| | ::: |**[[.:tools:outphit_pv_economy_evaluation|PVecon (outPHit PV Economy Evaluation)]]** |This tool to assess PV self-consumption potential of a building, the possibility to improve the self-consumption ratio by temporary storing PV electricity within a building, and supports to evaluate the economic potential of selling PV to the grid.|EN, DE, and others|
planning/tools.1756472873.txt.gz · Last modified: by yaling.hsiao@passiv.de