Looks at some studies that have been done to see if the retrofits have actually changed indoor air quality and changed pollutant concentrations. The first study (1981) of 18 homes in Washington state used the house doctor technique. The second study was of two homes in Medford, Oregon and one in Cranbury, New Jersey, all monitored for two weeks. The third study was of two identical houses in Rockville, Maryland, monitored over a year. One of them was retrofitted using the house doctor technique, as a result of which air leakage dropped by 40%. A fourth study of fifty houses is mentioned.
Discusses the need for and current state of standards for indoor air quality, and the various organisations responsible for setting them in the USA. Particular reference to ASHRAE standard 62-1981 and 62-1974.
Classification and characteristics of particular methods of investigations on thermal energy balance in dwelling houses aiming at determination of economy attained owing to modernization measures, are presented in the paper. Guidelines on execution of respective measurements and on working out theinvestigation results are given.
Notes increasing concern with the quality of indoor air, allied with the desire to conserve energy by minimising ventilation rates. Examines on the basis of a literature search the sources of indoor air pollution and the characteristics of the pollutants. Pays particular attention to tobacco smoke and its deleterious effects on health. Discusses minimum ventilation rates for rooms in which people smoke. Points out that ventilation alone cannot ensure that the strictest criteria for room air quality are met with smoking.
Discusses the requirements of air supply installations in high-occupancy spaces. Describes the characteristics of different systems of air diffusion, illustrates them and their operation in diagrams and photographs and demonstrates the nature of the room air flows created by them. Lists and discusses the advantages and drawbacks of air introduction from chairs and desks, from pivoting nozzles in walls of galleries and from ceiling or floor diffusers.
Factors responsible for the heat needs of particular objects and principles of their correct determination for ensuring an appropriate microclimate of rooms are presented in the paper.