English

Commercial buildings require mechanical ventilating systems, the specifications for which are included in the building codes. These codes specify the amount of outdoor air to be supplied per person for designed occupancy conditions. Many buildings such as retail establishments operate much of the time at occupancy loads well below the design. Thus, they are generally over ventilated and waste energy when operated according to the codes. A control system based on measurement of the carbon dioxide generated by the occupants was tested in a small bank in Pasco, Washington.

The paper focusses on local energy conservation measures, and on programs and policies that deal with rental property issues, directly or indirectly, whether they may help or hinder energy conservation. Local programs studied are: U.S. - Boston, Chicago, Minneapolis, San Francisco; Italy - Brescia, Reggio Emilia, Modena, Bologna; Germany - Berlin, Saarbrucken, Rhein Main. Sweden discusses four national programs that are locally administered; building codes, loans and grants, local energy advisors, and general information.

The objective of this study is to provide an explanatory model for total energy consumption in electrically heated single-family dwellings, based on publicly available socio-economic records in Sweden. An earlier study based on 3,200 houses, divided into 93 groups of similar design, has shown that energy consumption for one house may be twice that of another house in the same area, built to an identical design. The problem is: how much of this scatter depends on occupancy behaviour? The present study is based on 78 similar houses, electrically heated, built as one group in 1969.

This report gives a summary of research and its results at the Department of Building Science, Lund Institute of Technology, Sweden. Fields of research are: design and performance of low energy new buildings, energy conservation in existing buildings, utilisation of solar heat, climatic control, climatic control in foreign climates, especially desert climates, and moisture research.

Synopses of papers presented at the Fifth International Symposium, Bath.

The introduction describes the principle of SVP (Solar Ventilation Pre-heating) and then reviews a number of current related topics. Heat recovery is considered. Work on other devices which produce solar heated air is reviewed. The main driving forces of natural ventilation are wind pressure and thermal buoyancy. One of the problems is that the magnitude of these forces is very variable. The basis of SVP demands a thorough knowledge of airflow through buildings.

In this programme of work, methodologies for determining infiltration rates of large and complex buildings have been established. Theoretical considerations suggested that comprehensive information regarding interzonal air movements might be obtained from experimental techniques using multiple tracer gases. Field measurements to determine interzonal flows were carried out in office buildings using automated measurement systems developed for this purpose. Simpler techniques were found to be needed and were developed.

Provides a status report on research now being done on the effect of indoor pollutants on people and what investigations are planned for the future.

Discusses 11 strategies where methods and guidelines should be applied now by the building services engineer in designing new ventilation systems or retrofitting existing systems.

Treats major design and construction actions that can be taken in houses to limit conduction losses, increase heating performance, reduce energy losses through windows and provide adequate ventilation air - super insulation, high performance furnace or boiler, high performance windows and controlled ventilation. Discusses in some detail how controlling indoor air pollutants at source is the preferred approach to maintaining indoor air quality. Illustrates diagrammatically and explains how a house functions under natural ventilation conditions.