%0 Conference Proceedings %K Exposure %K Indoor %K Ventilation %K Air pollution %K Carbon dioxide %K Performance %K Demand-controlled ventilation %K Mechanical ventilation %K Calculating %K Continuous operation %K Occupancy %K Sensors %A Grenville K Yuill %A Marc R Jeanson %A Craig P Wray %B ASHRAE Transactions %D 1991 %G eng %N Part 2 %P 963-968 %T Simulated Performance of Demand-Controlled Ventilation Systems using Carbon Dioxide as an Occupancy Indicator %U http://www.techstreet.com/products/1717199 %V 97 %7 2 %! ASHRAE Trans. %X
A central-supply ventilation system and a distributed-supply ventilation system were simulated to determine their relative performance in controlling occupant exposure to indoor air pollutants. Two different control strategies were used - (1) constant exhaust flow rates (continuous ventilation) and (2) modulations of the exhaust flow rates to keep the carbon dioxide concentration in the exhaust air stream constant (demand-controlled ventilation). The demand-controlled ventilation systems showed no clear advantage over the continuous ventilation systems. They reduced the exposures to some pollutants and increased the exposures to others. In some cases, the relative performance of the demand-controlled ventilation systems depended strongly on whether central-supply or distributed-supply ventilation was used.