Discusses the use of a regenerative, air-to-air, rotary heat exchanger as part of a controlled ventilation system in a modern tightly built house. Describes analytical studies and the construction of a prototype. A four-month trial ina test-house indicated that the unit would be capable of recovering 5000 Kw/hof waste energy if operations were extended over the full heating system.
Assesses the efficacy of an engineered mechanical ventilation system in controlling indoor humidity in one of the HUDAC Mark XI houses. Develops a mathematical model of the home, which is used to demonstrate the interaction between outdoor humidity, infiltration and ventilation rates, and indoor moisture generation and their influence on indoor humidity levels. Discusses the operating effectiveness of the rotary heat exchanger and the energy saved through its use.
Presents the extra costs in new housing of a number of measures designed to reduce space heating costs. The measures used to reduce energy consumption in new houses in Sakatoon were:< 1. airtightness with controlled ventilation< 2. superinsulation< 3. use of the south windows for passive solar gain.< States that results are applicable in most parts of the Canadian prairie.
Considers the options which could be described as heat recovery and which are open to building services designers and operators. Treats fundementals for heat recovery, inadvertent heat recovery, deliberate heat recovery, air recirculation, passive heat exchangers, active heat exchangers, heat pump systems, heat recovery systems, incremental systems, heat distribution in central plant heat recovery systems, controls, heat recovery in air conditioning systems, bivalent heating, the actual application process of heat recovery.
As insulation standards improve, heat loss by ventilation becomes a larger proportion of the total heat loss from a building. Ventilation control is therefore necessary to minimize heating energy consumption in houses. States that while passive systems and those requiring occupant participation maygive satisfactory results, only a mechanical system can provide predictable ventilation routes and rates at all times. An extract only system has low initial cost, but it is difficult to ensure fresh air ventilation throughout the rooms of the house.
Reviews the overall aims and methods of the Conservahome Project, devised under the joint initiative of the Saskatchewan Office of Energy Conservation and the Saskatchewan Housing Corporation. The primary aims of the Project are to:< 1. Define the technical and economic problems of retrofit by conducting retrofit work on 6 houses< 2. Use the 6 houses as demonstration centres< 3.
Describes more then 35 kinds of small inexpensive exchangers from countries including the USA, Canada, Japan, and Sweden heat exchangers are designed to expel stale air with full recovery of the heat energy in the outgoing air. Includes detailed information on indoor pollutants, a directory of manufacturers, distributors and experts, an index of trade names, a bibliography and a subject index.
Notes that as houses become tighter, adventitious ventilation decreases. Discusses attitudes to varying degrees of tightness. Explains introduction of the supply exhaust system which comprises air supply, air exhaust and heat recovery. Notes requirements for economic use of the system and relates installation costs to potential savings. Tabulates systems currently available in Sweden(December 1980)noting maximum air flow, position of heat exchanger and other factors.
Describes the development and qualification of a test facility for providing a uniform method for testing all types of HVAC air-to-air energy recovery systems. Describes test method. The facility can be used to test coil-loop (closed run-around) heat exchangers, twin-tower (open run-around) enthalpy type exchangers, heat pipe exchangers and plate type exchangers with air flowrates of up to 1900 l/s.
The proceedings of the Canada Mortgage and Housing Corporation industry/science seminar "Controlled Ventilation with Exhaust Air Heat Recovery for Canadian Housing" 26 October 1978
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