Passive House Details
-10%
portes grátis
Passive House Details
Solutions for High-Performance Design
Corner, Donald; Fillinger, Jan; Kwok, Alison
Taylor & Francis Ltd
08/2017
332
Mole
Inglês
9781138958265
15 a 20 dias
1250
Descrição não disponível.
Foreword; Preface; Acknowledgements; Introduction; Chapter 1: Design Process for an Optimal Enclosure; Chapter 2: Foundation Systems and Details; Chapter 3: Floor Systems; Chapter 4: Wall Systems; Chapter 5: Roof Systems; Chapter 6: Openings for Windows and Doors; Chapter 7: Openings: Mechanical, Plumbing, and Electrical; Chapter 8: Case Studies; Appendix A Legend of Detail Materials; Appendix B Project Information; Bibliography; Index
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Passive House;Green Hammer;air barrier;Passive House Standards;air infiltration;Passive House Details;balloon frame;Double Stud Wall;blown cellulose;Dense Pack Cellulose;blown insulation;Hayfield House;building enclosure;Rigid Insulation;building performance;Cantilevered roof;Passive House Design;carbon footprint;Passive House Building;carbon-neutral;Treated Floor Area;ceiling section;Larsen Trusses;cellular glass;Energy Star;climates zones;Heat Pump Water Heater;composite joists;Wood Light Frame Construction;constructability;Walsh Construction;Cost Projections;Structural Insulated Panels;crawl space;Energy Savings;cross furring;Numerous Hybrid Strategies;dew point;Stem Wall;door jambs;Stud Walls;dormers;Stud Cavity;dryer vents;Airtight Layer;Electrical;Rainscreen Cladding;energy-efficient;HVAC;air conditioning;energy-positive;energy-responsive;flashing system;floor assemblies;floor framing;Floor Systems;Foundation Systems;Full basement;gable roof;global warming;hand calculations;heat flow;heat gain;heat transfer;high performance design;indoor air quality;kitchen exhaust;lateral forces;leaf walls;load bearing;load path;look-up tables;material choices;materials and assemblies;mineral wool;moisture management;moisture movement;net-zero;North American Passive House;Optimal Enclosure;oriel windows;over-framing;Parallel chord;parapet;PassivHaus;performance criteria;performance gains;platform frame;Plumbing;raft foundation;rafter tails;rainscreen;raised heel;recessed porch;roof overhang;roof slope;Roof System;room over garage;R-value;sanitary vent;sealed attic;service cavity;service life;siding;SIP;Solid lumber;spread footing;storage space;structural members;structural sheathing;Structural slab;stud framing;stud wall;suspended floor;THERM;thermal barrier;thermal bridging;thermal comfort;Thermal control;thermal isolation;thermal modeling;thermal performance;trussed rafters;trusses;ultralow-energy building;unconditioned space;uplift forces;value engineering;Ventilated attic;wall assemblies;wall section;Wall System;wall thickness;water resistance barrier;window area;window heads;window sills;WUFI;Donald B. Corner;Jan C. Fillinger;Alison G. Kwok
Foreword; Preface; Acknowledgements; Introduction; Chapter 1: Design Process for an Optimal Enclosure; Chapter 2: Foundation Systems and Details; Chapter 3: Floor Systems; Chapter 4: Wall Systems; Chapter 5: Roof Systems; Chapter 6: Openings for Windows and Doors; Chapter 7: Openings: Mechanical, Plumbing, and Electrical; Chapter 8: Case Studies; Appendix A Legend of Detail Materials; Appendix B Project Information; Bibliography; Index
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Passive House;Green Hammer;air barrier;Passive House Standards;air infiltration;Passive House Details;balloon frame;Double Stud Wall;blown cellulose;Dense Pack Cellulose;blown insulation;Hayfield House;building enclosure;Rigid Insulation;building performance;Cantilevered roof;Passive House Design;carbon footprint;Passive House Building;carbon-neutral;Treated Floor Area;ceiling section;Larsen Trusses;cellular glass;Energy Star;climates zones;Heat Pump Water Heater;composite joists;Wood Light Frame Construction;constructability;Walsh Construction;Cost Projections;Structural Insulated Panels;crawl space;Energy Savings;cross furring;Numerous Hybrid Strategies;dew point;Stem Wall;door jambs;Stud Walls;dormers;Stud Cavity;dryer vents;Airtight Layer;Electrical;Rainscreen Cladding;energy-efficient;HVAC;air conditioning;energy-positive;energy-responsive;flashing system;floor assemblies;floor framing;Floor Systems;Foundation Systems;Full basement;gable roof;global warming;hand calculations;heat flow;heat gain;heat transfer;high performance design;indoor air quality;kitchen exhaust;lateral forces;leaf walls;load bearing;load path;look-up tables;material choices;materials and assemblies;mineral wool;moisture management;moisture movement;net-zero;North American Passive House;Optimal Enclosure;oriel windows;over-framing;Parallel chord;parapet;PassivHaus;performance criteria;performance gains;platform frame;Plumbing;raft foundation;rafter tails;rainscreen;raised heel;recessed porch;roof overhang;roof slope;Roof System;room over garage;R-value;sanitary vent;sealed attic;service cavity;service life;siding;SIP;Solid lumber;spread footing;storage space;structural members;structural sheathing;Structural slab;stud framing;stud wall;suspended floor;THERM;thermal barrier;thermal bridging;thermal comfort;Thermal control;thermal isolation;thermal modeling;thermal performance;trussed rafters;trusses;ultralow-energy building;unconditioned space;uplift forces;value engineering;Ventilated attic;wall assemblies;wall section;Wall System;wall thickness;water resistance barrier;window area;window heads;window sills;WUFI;Donald B. Corner;Jan C. Fillinger;Alison G. Kwok
