Evaluation of a Polyester Filter and UV Light (PFUV) Dehumidifier to Improve Indoor Environmental Quality: Preliminary Results

Older residential dwellings in New Zealand frequently suffer from poor indoor environmental quality (IEQ) due to an ageing housing stock. Recent New Zealand surveys indicated around 50% of children live in houses that do not meet acceptable standards for thermal comfort. Children in these houses frequently experience respiratory conditions caused by dampness and mould during winter. New regulatory standards requiring a fixed heating source in the main living room of rental houses can increase rents and may result in the heating source not being utilized. This study evaluates an alternative low-cost portable air filter/sterilizer (PFUV) dehumidifier device for improving IEQ within the building envelope using Ultraviolet Germicidal Irradiation (UVGI) and a polyester filter (dual-10 30/30). This paper compares the effectiveness of the PFUV dehumidifier device and a conventional heat pump in terms of measured particulate matters as well as fungal profiles using Potato Dextrose Agar (PDA) plates. The PFUV dehumidifier successfully reduced the relative humidity to within a healthy range of (44-49%) compared to not running the device (54-60%), thereby reducing the suitability of the environment for mould growth. Additionally, the PFUV device achieved a reduction in average particulate matter (PM2.5) to within the range of 0.16 to 0.53 mu g/m(3) compared to the range of 1.06 to 2.42 mu g/m(3) before using the device.

Automated summary

Older residential dwellings in New Zealand often have poor indoor environmental quality due to aging housing stock. A study evaluated a low-cost portable air filter/sterilizer dehumidifier device using Ultraviolet Germicidal Irradiation (UVGI) and a polyester filter for improving indoor environmental quality. Results showed that this device successfully reduced relative humidity and particulate matters, making the environment less suitable for mould growth compared to conventional heat pumps.