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PDF pending restorationKirmse, Dale W.; Manyimo, Steve B. – 1976
This executive summary presents a brief analysis of findings and recommendations. The concept of the Integrated Utility System (IUS) is to consider the interaction and mutual support of five utility subsystems needed by a campus complex of buildings. The subsystems are: (1) Electric power service; (2) Heating - ventilating - air conditioning and…
Descriptors: Air Conditioning, Building Operation, Building Systems, Campuses
Download full textKirmse, Dale W.; Manyimo, Steve B. – 1976
The technical feasibility and economic benefits of an Integrated Utility System (IUS) at the University of Florida are addressed, as are the environmental and institutional factors. This study demonstrates a conservational and economic advantage in supplying the energy necessary for heating and cooling as a by-product of power generation. Contents…
Descriptors: Building Systems, College Buildings, Design Requirements, Economic Factors
General Electric Co., Philadelphia, PA. – 1977
The solar heating system is a retrofit installation on the roof of the Grover Cleveland Middle School in Boston. The system includes 4,600 square feet of flat plate collectors, a 2,000 gallon solar energy storage tank, plus the required structural steel, piping, insulation, pumps, heat exchangers, and controls to heat the air supplied by two…
Descriptors: Building Systems, Educational Facilities Improvement, Energy Conservation, Equipment Maintenance
Coxe, Edwin F.; Hill, David E. – 1976
This publication acquaints the prospective marketplace with the potential and underlying logic of the Integrated Utility System (IUS) concept. This system holds promise for educational and medical institutions seeking to reduce their energy costs. The generic IUS concept is described and how it can be incorporated into existing heating and…
Descriptors: Building Operation, Building Systems, Colleges, Economic Factors
Davis, Albert J.; Schubert, Robert P. – 1977
This publication provides a discussion of various energy conserving building systems and design alternatives. The information presented here covers alternative space and water heating systems, and energy conserving building designs incorporating these systems and other energy conserving techniques. Besides water, wind, solar, and bio conversion…
Descriptors: Alternative Energy Sources, Building Design, Building Systems, Climate
Whitworth, Fred E. – 1976
This report is concerned with suggestions for translating changing educational requirements and community needs into appropriate school facilities that are designed, or changed, to be cost beneficial and to conserve energy. Planning guides are offered for the construction and the improvement of elementary and secondary schools. Some preventative…
Descriptors: Building Systems, Cost Effectiveness, Educational Facilities Improvement, Elementary Secondary Education
