Annual simulations of the modelled retail store were performed using hourly weather data for Miami, Orlando and Jacksonville. Heating, ventilating and air-conditioning (HVAC) system performance was evaluated and compared for a conventional direct expansion (DX) system as well as several commercially available alternative technologies. Cost-effective options for meeting the new ventilation requirements were identified through analysis of the installed first cost and life-cycle cost for each system.

Simulation results indicate that conventional rooftop package DX air conditioners with a sensible hear ration (SHR) of 0.75 would be made unable to maintain acceptable indoor humidity throughout the year under the new ventilation standard. While elevated ventilation rates increase both sensible and latent loads on HVAC systems, the ventilation load can be over 90% latent in humid climates. Several of the alternative HVAC systems evaluated in this study were able to offset the increased ventilation loads, including the heat pipe-assisted air conditioner, chilled water system with ice storage, and three pre-treatment technologies in conjunction with a conventional air conditioner (100% outside air DX unit, gas-fired desiccant system, and enthalpy wheel). While all of these systems provided enhanced humidity control, the enthalpy recovery wheel system did so while minimizing the energy impacts of increased ventilation. In addition, the enthalpy wheel system offered the lowest first cost and life-cycle cost of any of the other alternative technologies.

• IAQ - indoor air quality

1. Moisture problems in manufactured housing: probable causes and cures