English

This paper documents the energy savings observed for a program operated by the Eugene Water and Electric Board which provided duct sealing for mobile and manufactured homes as its principal measure. Billing data and associated mean outdoor temperature data on more than 400 participants for one or more years pre and post was used as the basis of the savings estimate. The observed savings were used along with site treatment costs to estimate a levelized cost of savings of 12 mills/kWh exclusive of utility management costs.

This paper documents the experimental results and energy savings estimate from an end-use and water metering study of a sample of 104 multi-family sites. These sites were treated with a comprehensive Domestic Hot Water (DHW) retrofit consisting of flow efficient 2.0 GPM showerheads, kitchen and bath aerators, tank thermostat setback to 130°F, and a tank wrap if necessary. These measurements were modeled by a regression model with variables for occupancy, setback degree, and delta flow at the primary showerhead.

There is a need to improve building envelopes in many parts of the developing world. In cold climates, scarce fuel is consumed in an attempt to maintain reasonable indoor temperatures. In Northern Pakistan, traditional houses are made with stone walls while newer buildings, houses and schools, use uninsulated concrete block that has even lower thermal resistance. Evaluation and improvement of these buildings were undertaken with a regional non-governmental organization. Measurements were made of the thermal resistance of typical exterior walls.

A number of interzonal air flow models have been developed to calculate air flows and pollutant transport mechanisms in both single-zone and multizone buildings. The International Energy Agency's Energy Conservation in Buildings and Community Systems program adopted a working group on multizone air flow modeling to study physical phenomena causing air flow and pollutant transport (e.g., moisture) in multizone buildings, develop numerical modules to be integrated into COMIS, and evaluate the computer code.

All countries have a common obligation regarding environmental issues. Mature market economies still have problems with market imperfections and countries with markets in transition have not yet fully developed the institutions to make use of the market mechanisms. Both market function, institutions and policies must develop to achieve market transformation both in a national and an international context.

In 1995 Tacoma Power initiated a test of residential duct sealing to determine the feasibility of a full-scale program to improve the duct system in customer homes with central system electric heat.

The increasing power of personal computers has e:ncouraged a proliferation of building energy simulation software packages. The prospective user has no way to quantitatively judge the appropriateness of a given software package for a given design problem. To address this issue, the Building Energy Simulation Test (BESTEST) procedure was developed for systematically testing whole building energy simulation programs and diagnosing sources of predictive disagreement. The BES TEST procedure takes a "comparative testing" approach where a program is compared to itself or to other programs.

Forced air distribution systems in residential buildings are often located outside conditioned space, for example in attics, crawlspaces, garages and basements. Leaks from the ducts to these unconditioned spaces or outside can change flows through the registers and change the ventilation rates of the conditioned spaces. In this study, duct leakage flows were measured in several low-rise apartment buildings. The leakage flow measurements and other data about the apartments were used to develop a prototype apartment building.

In recent years, residential energy conservation research has focused attention on heating system distribution efficiency. Several field studies in the Pacific Northwest have found forced-air heating systems which have a majority of ducts located in unheated buffer spaces can lose as much as 3 0% of the equipment's heating output to duct air leakage and conduction loss. The magnitude of loss can be equivalent to the combined improvements in building shell insulation levels due to updated energy codes.