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No and low cost energy conservation measures : the potential energy and economic savings from conservation among low and middle income homeowners within Delaware County, IndianaCarr, Patrick M. January 1984 (has links)
Conservation is recognized as one important was Americans can lower their energy use and save money. The purpose of this research was to determine the energy and economic savings which 50 low and moderate income level homeowners in Delaware Count could generate by implementing nine conservation measures. The conservation measures included:1. In the winter turn down the thermostat during the day and night if the present setting is greater than 68° F.2. Reduce the hot water heater setting to 100°-120°F.3. Caulk and weatherstrip where needed.4. Insulate the hot water pipes and the furnace heat ducts.5. Install shower flow controllers.6. Insulate and weatherstrip the attic recess.7. Turn off the furnace pilot light during the summer.8. Insulate the hot water heater if in an unheated basement or garage.9. Seal the chimney in the winter when not used.The nine conservation measures were recommended by the researcher on a house-by-house basis. The researcher found that the type of heating fuel used in the home, the presence or absence of certain appliances in the home, the past involvement (if any) of the homeowner in other conservation programs, and the lifestyle practices of the household determined which of the nine conservation measures could be implemented in the home. The researcher estimated the amount of energy (BTU’s) and money which could be saved by implementing the conservation measures which were recommended for each homeowner and supplied this information to the study group.This investigation revealed that all 50 homeowners would have payback periods of less than one year if the conservation measures were implemented with short-lived material requiring annual replacement with the average savings being approximately $97.00. When longer-lived materials which would last five years or more were employed, only 27 of the homeowners would have payback periods shorter than one year unless homeowners for whom a furnace thermostat setback had been recommended did so by more than one degree Fahrenheit. The investigation revealed that when the thermostat was turned down three degrees Fahrenheit 40 homeowners would have payback periods less than one year and that 43 would have payback period of shorter than one year if a six degree Fahrenheit setback was employed. / Department of Architecture
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Superinsulation as a passive approach for hot humid climatesPonder, Robert William 08 1900 (has links)
No description available.
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Optimization of a residential design through the use of transient thermal analysis computer programsLam, Elvia Yolanda 12 1900 (has links)
No description available.
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A study on energy conservation measures in common area of private residential estates in Hong KongLeung, Kin-bong, 梁建邦 January 2004 (has links)
published_or_final_version / Housing Management / Master / Master of Housing Management
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The capitalization of energy efficiency in housing prices /Longstreth, Molly January 1981 (has links)
No description available.
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Effects of vegetation, structural and human factors on the thermal performance of residences in a semi-arid environmentKliman, Susan Schaefer,1963-, Kliman, Susan Schaefer,1963- January 2001 (has links)
The objectives of the study were to examine and quantify the relationship between vegetation and the thermal performance of residences in a hot arid environment. Also explored were structural and human influences on residential energy consumption. A primary goal was to determine how much energy savings could be realized through strategic planting of vegetation. This study sought to validate previous simulation and modeling studies that documented annual savings of 2-11% on residential cooling loads. Also examined was whether shrubs and grass could provide a benefit similar to that of trees, assessing the importance of evapotranspiration versus shading. An empirical study was conducted using 105 existing homes in the metropolitan area of Tucson, Arizona. Data included construction type, amenities, living habits of occupants, and energy consumption for heating and cooling over a two-year period. These data were analyzed with a combination of bivariate and multivariate analyses to examine direct correlations between specific variables and energy consumption and the relative importance of each variable. These analyses were unable to document any measurable savings in summer cooling loads as a result of vegetation adjacent to the house, and the presence of trees actually increased the winter heating load by 2%. While trees provide important shading benefits, and can reduce the direct solar gain through the windows of a house, analysis demonstrated that structural and human factors were the most important aspects in residential energy consumption. The size of the house is of primary importance. Houses with evaporative cooling consumed significantly less energy than those with air conditioning. Thermostat settings and habits regarding thermostat operation were the most critical human factors. Occupants who adjusted their thermostats a few degrees cooler in winter and warmer in summer realized measurable savings. Occupants who turned their heating and cooling equipment off when they were not home used significantly less energy for heating and cooling. These factors far outweighed any impact from vegetation on annual energy consumption. While trees should not be considered as a primary means of reducing annual energy consumption, properly placed vegetation can provide aesthetic benefits and increase the thermal comfort of the occupants.
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A model residential energy efficiency programJeter, Teresa M. January 1995 (has links)
The opportunity for reducing energy expenditures in homes has never been greater nor has the need been more pressing. Based on the current analysis of weatherization programs, millions of houses do not receive energy efficiency measures and houses that are being weatherized are not receiving the kinds of measures that generate the greatest energy savings. Many of these problems are attributed to program policies, regulations and funding limitations. Given these critical issues. The creative project is a model residential energy efficiency program. Its purpose is to serve as a guide for planning, designing, developing and implementing the kinds of residential energy efficiency programs that will maximize services and benefits. More specifically, the model will assist in the design and implementation of programs that are effective, efficient and can deliver the “right” energy measures to “any” house that needs them. A community in a small Midwestern city was selected to help demonstrate the various components of the model program. / Department of Urban Planning
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Thermal energy conservation with draperies and a plastic window liner /Sloan, Donna Lucille January 1984 (has links)
No description available.
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Analysis of policies to promote weatherization of homes on Martha's VineyardPhilipson, Amy Faye January 1981 (has links)
Thesis (M.C.P.)--Massachusetts Institute of Technology, Dept. of Urban Studies and Planning, 1981. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ROTCH. / Bibliography: leaves 99-101. / by Amy Faye Philipson. / M.C.P.
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Concept(s) of the energy-efficient house in the temperate regions of Australia : a critical review / Terence John Williamson.Williamson, Terry J. January 1997 (has links)
Computer disk in pocket attached to back cover. / Bibliography: leaves 159-170. / System requirements for accompanying computer disk: Macintosh or IBM compatible computer. Other requirements: Microsoft Excel V 5.0 or later. / ix, 228 leaves : ill., map ; 30 cm + 1 computer disk (3.5") / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / In addressing the identification of the scope of energy-efficient goals within the broader design problem, the conceptions of the energy-efficient dwelling are examined, along with how published advice for the design of energy-efficient houses is derived from these conceptions, and the adequacy of this published advice as a basis for good design decisions. / Thesis (Ph.D.)--University of Adelaide, Dept. of Architecture, 1997
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