heating

A large proportion of heated rooms depend primarily on natural convection for the distribution of heat within the occupied zone. A method of predicting air temperature variations with height is presented. Using the heat and mass flow rates of the driving convection plume, along with the corresponding parameters of downward flowing air streams at cool surfaces, an estimation of the maximum (upper) temperature and the minimum (lower) temperature can be made. Incoming air entry points can also be taken into account.

Measurements were carried out on the heating and airing habits of the occupants of several flats. 9 flats in a 6 storey building in Berlin, using various ventilation systems were studied. Two of the flats also had an air heating system. 

Retrofitting of older buildings brings about a noticeable drop in air supply. Fireplaces in buildings need sufficient combustion air. Tight windows may cause insufficient air supply. Therefore an adequate combustion air flow for the fireplace may not be attained and poor combustion will take place. In this study data on length, tightness, etc of windows, doors and other openings in buildings of the last 30 years have been collected.

Dynamic insulation is a means of reducing building heat losses to near zero without the use of massive thermal insulation. It relies on recycling the heat conducted through the fabric or reducing the temperature gradient by means of a suitable heat transport fluid - usually air and sometimes water. Describes research and experience in Sweden and France. In Sweden, some 80,000 m2 of roofs (mostly of single storey sheeted structures) use the contraflow system of dynamic insulation and there have been a few experimental installations in the housing sector.

Reports a case study dealing with the relation between ventilating and airing behaviour and the outside climate. Also the significance of other variables such as preferences with respect to the indoor climate are considered. Wind speed is found to correlate, but outside temperature (varying from -3 to +9 degrees C) does not correlate with the length of time the windows in the bedrooms and bathrooms are opened. Rainfall and sunshine also seem to have some influence. The main reasons for airing are that the bedrooms are too warm and not fresh.

Studies the daily behaviour with respect to heating, use of windows and ventilation in newly built identical houses in Oosterhout, Netherlands. The houses have external walls of brick with cavity insulation, double-glazed windows and natural ventilation, with a gas burner furnace in the loft for heating and hot water. 57 occupants were interviewed and 41 filled in hourly log-books during 14 days recording people at home, thermostat setting, periods of open windows and trickle ventilators in the different rooms, use of radiator valves and position of doors inside the house.

This paper reports a case study dealing with the relation between ventilating and airing behaviour and the outside climate. Also the significance of other variables such as preferences with respect to the indoor climate are considered. An indication is found that wind speed correlates, but outside temperature (varying from -3 to +9 degrees C) does not correlate with the length of time the windows in the bedrooms and bathrooms are opened. Rainfall and sunshine also seem to have some influence. The main reason for airing is the opinion that the bedrooms are too warm and not fresh.

Thirty residences were monitored for nitrogen dioxide, carbon monoxide, formaldehyde, respirable suspended particles, and air exchange rate for forty-one one-week periods using integrating samplers. The residences were located in the northwest a

Continuous monitoring of NO, NO2, CO, CO2, and O2 depletion was conducted in 14 residences (13 with kerosene space heaters and one without) in two locations in the residence (room with the heater and bedroom) and outdoors. The continuous monitor

Investigates the generation of pollutants from unvented convective and radiant kerosene heaters in a residence over a 3 month period. The measured concentrations of carbon monoxide were low. However, under the conditions of use which were studied concentrations of SO2, NO, NO2, and CO2 reached or exceeded levels recommended for indoor air. Further, it was demonstrated that using a semi-open door to provide ventilation did not reduce concentrations of pollutants to acceptable levels.