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BSD**BSD-013: Rain Control in Buildings **
By John Straube
Download.pdf 969.7 kB
Moisture is one of the most important agents leading to building enclosure deterioration. Understanding and predicting moisture movement within and through the enclosure is therefore of fundamental importance to predicting and improving building enclosure performance, particularly durability. Since driving rain deposition on walls and roofs is quantitatively the largest single source of moisture for most walls and roofs, it is no surprise that controlling rain penetration is one of the most important parts of a successful moisture control strategy. In fact, failure to control rain is likely the oldest and most common serious building enclosure performance problem. Commentators as long as Vitruvius (70 BC) bemoaned the challenges of controlling rain penetration. This document will consider rain control from a general to a specific level. The following sections will cover: basic moisture control principles that should be employed in the design of above-grade building enclosures; driving rain as a moisture load on walls; a classification system of the various rain control strategies available for walls; and finally, good design practises for walls. The rain control of roofs will be covered in more detail in another BSD.
BSD**BSD-018: The Building Enclosure **
By John Straube
Download.pdf 587.0 kB
That part of any building that physically separates the exterior environment from the interior environment(s) is called the building enclosure or building envelope. Environmental separator is another term used to describe the enclosure, but note that this generic term also applies to separators of two different interior environments. The term building enclosure is preferred to the term building envelope largely because it is considered both more general and more precise. Also note that the building enclosure may contain, but is not the same as, the so-called thermal envelope, a term that is used to refer to the thermal insulation within the enclosure. The enclosure, the loadings it must resist, and its functions are addressed in this digest.
BSD**BSD-103: Understanding Basements **
By Joseph Lstiburek
Download.pdf 1.9 MB
Buildings used to be constructed over cellars. Cellars were dank, dark places where coal was stored. People never intended to live in cellars. Now we have things called basements that have pool tables, media centers and play rooms. Cellars were easy to construct – rubble, stone, bricks and sometimes block. If they got wet or were damp so what? Basements are different. They are not easy to construct if we intend to live in them. They need to be dry, comfortable and keep contaminants out. Over the last 50 years there has been a notable expansion of living space. The useful conditioned space of building enclosures is expanding to the outer edge of the building skin (Figure 1). Attics, crawlspaces, garages and basements are valuable real estate that are being used to live in or used for storage or places to locate mechanical systems. Basements are viewed by many as cheap space that can easily be incorporated into a home. Keeping basements dry, comfortable and contaminant free is proving to be anything but simple.
BSD**BSD-105: Understanding Drainage Planes **
By Joseph Lstiburek
Download.pdf 2.9 MB
Controlling rain is the single most important factor in the design and construction of durable buildings and in the control of mold. Drainage planes are used in the design and construction of building enclosures to control rain. All exterior claddings pass some rainwater. Siding leaks, brick leaks, stucco leaks, stone leaks, etc. As such, some control of this penetrating rainwater is required. In most walls, this penetrating rainwater is controlled by the drainage plane that directs the penetrating water downwards and outwards.
BSD**BSD-109: Pressures in Buildings **
By Joseph Lstiburek
Download.pdf 4.4 MB
Air flow in buildings is one of the major factors that governs the interaction of the building structure with the mechanical system, climate and occupants. If the air flow at any point within a building or building assembly can be determined or predicted, the temperature and moisture (hygrothermal or pyschometric) conditions can also be determined or predicted. If the hygrothermal conditions of the building or building assembly are known, the performance of materials can also be determined or predicted
BSD**BSD-144: Increasing the Durability of Building Constructions **
By Joseph Lstiburek
Download.pdf 882.5 kB
The current building industry focus on durability is in part a reaction to the current perceived lack of it. Warranty claims and callbacks are viewed as increasing. Litigation and insurance costs are felt to be rising as a result. Another reason for the current focus on durability is the recognition that sustainability is not possible without durability. If you double the life of a building and you use the same amount of resources to construct it, the building is twice as resource efficient. Therefore durability is a key component of sustainability. It seems that one thing that both the development community and the environmental community can agree on is that durability is a good thing. What do we know about durability and how do we know it? The lessons of durability have come principally out of failure. Engineering is an iterative process of design by failure. Buildings are constructed. Problems are experienced. Designs and processes are changed. Better buildings are constructed. The building industry is in essence a reactive industry, not a proactive industry. It can be argued that the industry continues to do things until they become intolerably bad and then the industry changes. Examining failures gives us guidance on increasing the durability of building constructions.
BSI**BSI-003: Concrete Floor Problems **
By Joseph Lstiburek
Download.pdf 2.9 MB
An edited version of this Insight first appeared in the ASHRAE Journal. Perhaps it was the drug culture of the 60’s that turned brains into coleslaw but it is hard to understand the lunatic practice of placing a layer of sand over the top of a plastic ground cover under a concrete slab in California.
BSI**BSI-009: New Light In Crawlspaces **
By Joseph Lstiburek
Download.pdf 1.1 MB
An edited version of this Insight first appeared in the ASHRAE Journal. Think of the good old days—the Civil War, WWI, the Great Depression, WWII—crawlspaces were uninsulated. They were ventilated and they didn’t have ground covers—and they didn’t have problems. Why?
BSI**BSI-011: Capillarity—Small Sacrifices **
By Joseph Lstiburek
Download.pdf 2.3 MB
An edited version of this Insight first appeared in the ASHRAE Journal. Water causes enough trouble by itself, but when we add salt we go to a whole different level, especially where porous materials are concerned. What is the deal with porous materials? Simple, porous materials are capable of wicking water large distances due to capillary suction. And when water can move large distances only bad things can happen.
BSI**BSI-041: Rubble Foundations **
By Joseph Lstiburek
Download.pdf 3.1 MB
An edited version of this Insight first appeared in the ASHRAE Journal. It’s pretty easy to deal with new basements. If you want a challenge try dealing with century old houses sitting on top of rubble foundations. These houses are not going away and sooner or later we are going to have to fix them and insulate them.
PA**Built Wrong from the Start **
By Joseph Lstiburek
Download.pdf 918.1 kB
Top ten blunders that rot your house, waste your money, and make you sick. Reprinted with permission from Fine Homebuilding Magazine, April/May 2004, pages 52-56.
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DTW**Cold Climate: National Grid Deep Energy Retrofit Pilot Program—Millbury Cape **
Download.pdf 4.9 MB
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ETW**High-R Foundation 01: Uninsulated Foundation Walls and Slab **
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ETW**High-R Foundation 02: Code-Minimum R-10 Continuous Insulation **
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ETW**High-R Foundation 03: R-13 Fiberglass Batt in a 2x4 Framed Wall **
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ETW**High-R Foundation 04: 1" XPS, 2x4 Wood Framed Wall with Fiberglass Batt **
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ETW**High-R Foundation 05: 2" XPS, 2" Foil-Faced Polyisocyanurate **
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ETW**High-R Foundation 06: 3-1/2" of 2.0 PCF Closed-Cell Spray Polyurethane Foam **
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ETW**High-R Foundation 07: 6" 0.5 PCF Open-Cell Spray Foam **
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ETW**High-R Foundation 08: 2" XPS, 2x4 Framing with Fiberglass Batt **
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