Discusses ways to cut rising energy costs within university laboratories by using heat recovery systems and variable volume exhaust hood systems. Explores the implementation of broad-based, sustainable laboratory classroom design concepts. (GR)

The Piscataway (New Jersey) high school uses recessed windows and an integrated heat recovery system, made possible by its modular design, to conserve energy. Available from: New Jersey School Boards Association, P.O. Box 909, Trenton, New Jersey 08605. (Author/MLF)

The new Terraset Elementary School in Reston, Virginia, uses earth as a cover for the roof area and for about 80 percent of the wall area. A heat recovery system will be used with solar collectors playing a primary role in heating and cooling. (Author/MLF)

Discusses how incorporating energy-efficient features into residence halls can save money and make students' campus experience more enjoyable. Use of heat-recovery systems, low-impact lighting, and natural daylighting are explored as are ideas to consider for future residence hall construction projects or renovations. (GR)

The new Oregon-Davis Elementary School in rural Indiana embodies state-of-the-art energy management. Its environmental systems include thorough insulation, dual heating and cooling equipment for flexible loads, and decentralized computer controls. A heat recovery unit and variable-air-volume discharge ducts also contribute to conservation. (MCG)

Suggested guidelines for energy saving on campus include a 3-phase plan: (1) Quick Fix--effective management of what you already have; (2) Refitting--modification of existing systems and installation of simple controls; (3) Systems Convert--installation of computerized controls, waste-heat recovery, solid-waste recovery utilization and other…

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…

This is an update of the 1973 edition of a guide for energy conservation in schools. This Educational Facilities Laboratories publication is an information source for teachers, school administrators, school maintenance personnel, school designers, or anyone interested in conserving energy in schools. Topics discussed include: (1) life-cycle…

Comments on the need for integrated design of lighting, heating, and cooling systems. In order to eliminate the penalty of refrigerating the lighting heat, minimize the building non-usable space, and optimize the total energy input, a "systems approach" is recommended. This system would employ heat-recovery techniques based on the…

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…

This instructional unit is one of 10 developed by students on various energy-related areas that deals specifically with fireplaces and fuels. Its objective is for the student to be able to discuss the structural design, operation, and efficiency of fireplaces and characteristics of different fireplace fuels. Some topics covered are fuels, elements…

This learning module, one in a series of 20 related training modules for apprentice stationary engineers, deals with boilers. Addressed in the individual instructional packages included in the module are the following topics: firetube and watertube boilers; boiler construction; procedures for operating and cleaning boilers; and boiler fittings,…

This packet, part of the instructional materials for the Oregon apprenticeship program for millwright training, contains nine modules covering boilers. The modules provide information on the following topics: fire and water tube types of boilers, construction, fittings, operation, cleaning, heat recovery systems, instruments and controls, and…

In a nontechnical way, this small book outlines the present use of energy in schools, what forms of energy will be available in the foreseeable future, how energy is presently wasted in educational facilities, and how energy can be conserved now and in the future. The school administrator can control the energy consumption in his schools and this…

Exertional heat stroke (EHS) is a medical emergency whose likelihood in sport settings is often contingent on environmental factors, team policies, coaching strategies, and broader cultural expectations. Moreover, when it occurs, it requires immediate recognition, proper management, and care to optimize chances of survival or recovery without…