building science publications

Building Profiles are residential building cross sections that include enclosure and mechanical design recommendations. This page addressed publications (journals, select abstracts, videos, and possible blogs) that address “building science education” and advances in building science affecting the development of course work. Phase III focusses on the performance of various sheathings and claddings in a high stress moisture environment that is typical of the Pacific Northwest climate. The general principle of building durability has two components: buildings should be suited to their environment and the laws of physics must be followed. Very Cold - A very cold climate is defined as a region with approximately 9,000 heating degree days or greater (65°F basis) or greater and less than 12,600 heating degree days (65°F basis). This section also contains two quick, easy-to-read series. This report describes the construction and instrumentation of Phase III of a multi-phase, multi-year research project at the Vancouver Field Exposure Test Facility in Coquitlam, British Columbia. Using Unsealed Wall Cavities or Panned Floor Joists as Return Plenum, Info-802: What's Wrong With This Practice? This report is an extension of a previous analysis study titled “RR-1014: High R Walls for the Pacific Northwest – A Hygrothermal Analysis of Various Exterior Wall Systems”, conducted by BSC for Walsh Construction, dated June 1, 2010 that examined the predicted thermal and hygrothermal performance of 17 different wall assemblies in Portland, Oregon. The data presented is a subset of experimental data from a multi-phase, multi-year research project at the Vancouver Field Exposure Test Facility led by Building Science Corporation (BSC) and Gauvin 2000 Construction Limited. Hot-Humid - A hot-humid climate is defined as a region that receives more than 20 inches of annual precipitation with approximately 6,300 cooling degree days (50°F basis) or greater and where the monthly average outdoor temperature remains above 45°F throughout the year. Case Studies provide a summary of results for homes built in partnership with BSC’s Building America team. However, the need for, and type of additional vapor control layers remains unanswered to many. A common question encountered by SPF applicators, building designers, and code officials is the need for an additional vapor barrier or retarder. The analysis was done using historical experience, published work in journals and trade publications, current building code requirements and WUFI hygrothermal simulations to assess benefits and risks associated with insulating the roof decks in both vented and unvented configurations. Information Sheets are short, descriptive overviews of basic building science topics and are useful both as an introduction to building science and as a handy reference that can be easily printed for use in the field, in a design meeting, or at the building permit counter. Guides and Manuals are "how-to" documents, giving advice and instructions on specific building techniques and methods. BSI-090: Joseph Haydn Does The Perfect Wall. Research Reports are technical reports written for researchers but accessible to design professionals and builders. National Consortium of Housing Research Centers’ – Publications Page. Is Here! Marine - A marine climate meets is defined as a region where all of the following occur: Building Science Insights are short discussions on a particular topic of general interest. This page addressed publications (journals, select abstracts, videos, and possible blogs) that address “building science education” and advances in building science affecting the development of course work. The focus of this report is on modifying conventional, ventilated attics, constructed with impermeable roof shingles (with fiberglass batt insulation on the ceiling plane) by adding fiberglass batt (or netted fiberglass or netted cellulose or spray applied fiberglass) insulation to the underside of the roof deck (i.e. BSD-007: Historical Development of the Building Enclosure, BSD-012: Moisture Control for New Residential Buildings, BSD-016: Top Ten Issues in Residential Ventilation Design, BSD-025: The Passive House (Passivhaus) Standard—A comparison to other cold climate low-energy houses, BSD-026: PassivHaus Becomes Active—Further Commentary on PassivHaus, BSD-040: Airtightness Testing in Large Buildings, BSD-042: Historical Development of the Building Enclosure, BSD-061: The Function of Form—Building Shape and Energy, BSD-107: Understanding Ventilation in Hot-Humid Climates, BSD-108: Investigating and Diagnosing Moisture Problems, BSD-111: Flood and Hurricane Resistant Buildings, BSD-112: Building Science for Strawbale Buildings, BSD-113: Ground Source Heat Pumps ("Geothermal") for Residential Heating and Cooling: Carbon Emissions and Efficiency, BSD-114: Interior Insulation Retrofits of Load-Bearing Masonry Walls In Cold Climates, BSD-119: Summer Condensation Problems in Ice Arenas, BSD-139: Deep Energy Retrofit of a Sears Roebuck House—A Home for the Next 100 Years, BSD-144: Increasing the Durability of Building Constructions, BSD-148: Simplified Prediction of Driving Rain on Buildings: ASHRAE 160P and WUFI 4.0, BSD-149: Unvented Roof Assemblies for All Climates, BSD-150: Black Stains on Carpets and Ghosting of Framing, BSD-151: Understanding Primary/Source and Site Energy, BSD-152: Building Energy Performance Metrics, BSD-163: Controlling Cold-Weather Condensation Using Insulation, BSD-200: Low-Energy Commercial and Institutional Buildings: Top Ten Smart Things to Do for Cold Climates, BSI-006: No Good Deed Shall Go Unpunished, BSI-007: Prioritizing Green—It's the Energy Stupid*, BSI-012: Balancing Act - Exhaust-Only Ventilation Does Not Work. Therefore, certain energy efficiency programs set duct leakage performance requirements that must be met to enter the program. Common, avoidable mistakes are also examined in the What's Wrong with this Project? CP-1011: Evaluation of Cladding and Water-Resistive Barrier Performance in Hot-Humid Climates Using a Real-Weather, Real-Time Test Facility, CP-1012: Residential Exterior Wall Superinsulation Retrofit Details and Analysis, CP-1013: Assessing the Freeze-Thaw Resistance of Clay Brick for Interior Insulation Retrofit Projects, CP-1101: The Influence of Low-Permeance Vapor Barriers on Roof and Wall Performance, CP-1102: San Francisco Bay Area Net Zero Urban Infill, CP-1103: New England Net Zero Production Houses, CP-1201: Masonry Wall Insulation Interior Embedded Beam Simulations, CP-1301: Field Monitoring and Simulation of a Historic Mass Masonry Building Retrofitted with Interior Insulation, CP-1302: Monitoring of Two Unvented Roofs with Air-Permeable Insulation in Climate Zone 2A, CP-2001: Insulation Induced Exterior Paint and Siding Failures, DTW: Aspen, CO - Burlingame Ranch Phase I - Case Study, DTW: Bedford, MA - Bedford Farmhouse High Performance Retrofit Prototype - Case Study, DTW: Belchertown, MA - 18th Century Cape Comprehensive Deep Energy Retrofit - Case Study, DTW: Belmont, MA - Two-Family Belmont Residence Deep Energy Retrofit - Case Study, DTW: Brookline, MA - Three-Story Victorian Partial Deep Energy Retrofit - Case Study, DTW: Cleveland, OH - East 71st Street Prototype Housing - Case Study, DTW: Cleveland, OH - EcoVillage Cleveland - Case Study, DTW: Cleveland, OH - West 54th Street Infill Prototype House - Case Study, DTW: Clinch County, GA - Suwanee River Administration Building - Case Study, DTW: Colleyville, TX - Colleyville Eco House Prototype - Case Study, DTW: Concord, MA - Concord Cape Prototype - Case Study, DTW: Dallas, TX - Anderson/Sargent Dallas Show House - Case Study, DTW: Ellendale, DE - Sandstone 40% Prototype - Case Study, DTW: Farmington, CT - Hamilton Way Community Prototype - Case Study, DTW: Fort Mills, SC - Baxter Community: High Performance Green Building - Case Study, DTW: Gloucester, MA - Gloucester Coastal Cottage Deep Energy Retrofit - Case Study, DTW: Grayslake, IL - Prairie Crossing Community - Case Study, DTW: Grayslake, IL - Prairie Crossing Four Square - Case Study, DTW: Haymount, VA - House Design Recommendations, DTW: Hilton Head, SC - Coastal Habitats - Case Study, DTW: Humble, TX and Atascocita, TX - Eaglesprings and Waterhaven Communities - Case Study, DTW: Jamaica Plain, MA - Three-Family Triple Decker Comprehensive Deep Energy Retrofit - Case Study, DTW: Juneau, AK - House Design Recommendations, DTW: Lake Charles, LA - House Design Recommendations, DTW: Lancaster, MA - 19th Century Small Colonial Second Floor Reframing Comprehensive Deep Energy Retrofit - Case Study, DTW: Lewisville, TX - GreenCraft Builders 2009 TimberCreek Net Zero Energy House Prototype - Case Study, DTW: Millbury, MA - Millbury Cape Deep Energy Retrofit - Case Study, DTW: Milton, MA - 1960s Garrison Colonial Comprehensive Deep Energy Retrofit - Case Study, DTW: New Orleans, LA - Cameron Parish Demonstration House - House Plan, DTW: New Orleans, LA - Green Dream 1 - Case Study, DTW: New Orleans, LA - Green Dream 2 - Case Study, DTW: New Orleans, LA - Project Home Again Phase I - Case Study, DTW: New Orleans, LA - Project Home Again Phase II - Case Study, DTW: Newton, MA - Cape Basement Renovation Turned Comprehensive Deep Energy Retrofit - Case Study, DTW: Northampton, MA - 1859 Victorian Comprehensive Deep Energy Retrofit - Case Study, DTW: Oakdale, CT - Greenbrier Prototype - Case Study, DTW: Oakland, CA - Lancaster Live/Work Townhome Prototype - Case Study, DTW: Ormond Beach, FL - ICI Showcase House Prototype - Case Study, DTW: Pontiac, MI - House Design Recommendations, DTW: Prosper, TX - GreenCraft Greenspoint House Prototype - Case Study, DTW: Quincy, MA - 1905 Bungalow Deep Energy Retrofit and Addition - Case Study, DTW: Tucson, AZ - Copper Moon - Case Study, DTW: West Concord, MA - Concord Four Square Retrofit - Case Study, DTW: Westford, MA - Habitat for Humanity - House Plan, DTW: Westford, MA - Habitat for Humanity High-R Value Prototype - Case Study, DTW: Westford, MA - Westford Modern Colonial Deep Energy Retrofit - Case Study, ETW: Building Profile: Retrofit - Belchertown, MA 18th Century Cape Comprehensive Retrofit, ETW: Building Profile: Retrofit - Belmont, MA Two-Family Belmont Residence, ETW: Building Profile: Retrofit - Brookline, MA Three-Story Victorian Partial Retrofit, ETW: Building Profile: Retrofit - Gloucester, MA Coastal Cottage, ETW: Building Profile: Retrofit - Jamaica Plain, MA Three-Family Triple Decker, ETW: Building Profile: Retrofit - Lancaster, MA 2nd Floor Reframing Comprehensive Retrofit 19th Century Small Colonial, ETW: Building Profile: Retrofit - Millbury, MA Cape, ETW: Building Profile: Retrofit - Milton, MA 1960s Garrison Colonial Comprehensive Retrofit, ETW: Building Profile: Retrofit - Newton, MA Cape Basement Renovation Turned Comprehensive DER, ETW: Building Profile: Retrofit - Northampton, MA Comprehensive 1859 Victorian, ETW: Building Profile: Retrofit - Quincy, MA Bungalow Retrofit and Addition, ETW: Building Profile: Retrofit - Westford, MA Modern Colonial Retrofit, ETW: Foundation - 1" XPS, 2x4 Wood Framed Wall with Fiberglass Batt, ETW: Foundation - 2" Polyisocyanurate Insulation, 2x4 Framing with Cellulose, ETW: Foundation - 2" XPS, 2" Foil-Faced Polyisocyanurate, ETW: Foundation - 2" XPS, 2x4 Framing with Fiberglass Batt, ETW: Foundation - 2" XPS, 2x6 Framing with Fiberglass Batt, ETW: Foundation - 3-1/2" of 2.0 PCF Closed-Cell Spray Polyurethane Foam, ETW: Foundation - 4" PIC, 2x6 Framing with Fiberglass Batt, ETW: Foundation - 4" XPS Insulation in the Center of Foundation Wall, ETW: Foundation - 4" XPS Insulation on the Exterior of Foundation Wall, ETW: Foundation - 6" 0.5 PCF Open-Cell Spray Foam, ETW: Foundation - 6" 0.5 PCF Spray Foam with 2x4 Framing Offset 2.5" from Concrete, ETW: Foundation - Code-Minimum R-10 Continuous Insulation, ETW: Foundation - High-R Foundation 11: 4" XPS Insulation on the Exterior of Foundation Wall, ETW: Foundation - Insulated Concrete Forms (ICF), 2" XPS on Interior and Exterior, ETW: Foundation - R-13 Fiberglass Batt in a 2x4 Framed Wall, ETW: Foundation - Uninsulated Foundation Walls and Slab, ETW: Wall - 2x6 Advanced Frame Wall Construction, ETW: Wall - 2x6 Advanced Frame Wall Construction with Mineral Fiber Insulation Board, ETW: Wall - Double Stud Wall Construction, ETW: Wall - Double Stud with Spray Foam Wall Construction, ETW: Wall - Exterior Insulation Finish Systems (EIFS) Wall Construction, ETW: Wall - Flash-and-Fill Hybrid Wall Construction, ETW: Wall - Non-Combustible Steel Frame Wall Construction with Mineral Fiber Insulation Board, ETW: Wall - Offset Frame Wall Construction, ETW: Walls - 2x6 Advanced Frame Wall Construction High R-Value, Freeze-Thaw Risk: Repair/Retrofit, Maintain and Monitor, GM-0501: Rainwater Management Performance of Newly Constructed Residential Building Enclosures During August and September 2004, GM-0502: Review of Residential Ventilation Technologies, GM-0602: READ THIS: Before You Design, Build or Renovate, GM-0603: READ THIS: Before You Turn Over a Unit, GM-0605: Design Process for Sizing: Cooling and Heating System Capacity, Room Air Flows, Trunk and Runout Ducts, and Transfer Air Ducts, GM-0701: Water Management Details for Residential Buildings, GM-0801: Quality Assurance Roadmap for High Performance Residential Buildings, GM-0802: BSC Building America Quality Control Checklist, GM-0803: Building America Quality Control Checklist Appendix, GM-0902: IRC FAQ: Wall Bracing Requirements for Insulating Sheathing, GM-0903: IRC FAQ: Insulating Sheathing Vapor Retarder Requirements, GM-0904: IRC FAQ: Cladding Attachment Over Insulating Sheathing, GM-1001: Attic Air Sealing Guide and Details, GM-1301: High Performing Precast Concrete Building Enclosures: Rain Control, GM-1302: Mass Save Deep Energy Retrofit Builder Guide, GM-1401: Insulated Metal Panel (IMP) Systems, GM-1501: Ventilation for New Low-Rise Residential Buildings, High-R Wall-02: 2x6 Advanced Frame Wall Construction, Info-001: Residential Best Practices Criteria, Info-015: Top Ten Dumb Things To Do In the South, Info-201: Common Advanced Framing Details, Info-301: Drainage Plane/Water Resistive Barrier, Info-302: Pan Flashing for Exterior Wall Openings, Info-304: Integrating Deck Ledger Board with Drainage Plane, Info-310: Vapor Control Layer Recommendations, Info-312: Vapor Permeance of Some Building Materials, Info-401: Air Barriers—Airtight Drywall Approach, Info-405: Sealing Air Barrier Penetrations, Info-407: Air Barriers—Tub, Shower and Fireplace Enclosures, Info-408: Critical Seal (Spray Foam at Rim Joist), Info-500: Building Materials Property Table, Info-501: Installation of Cavity Insulation, Info-502: Temperature Dependence of R-values in Polyisocyanurate Roof Insulation, Info-606: Placement of Intake and Exhaust Vents, Info-607: Refrigeration System Installation and Startup Procedures, and AC Equipment Efficiency.

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