Field testing of general ventilation devices and systems for particles removal efficiency and pressure drop

The prevalence of indoor occupancy in human societies today bring with it considerable issues pertaining to the indoor environment of enclosed residential and commercial spaces. Indoor air quality is one of those aspects of indoor environment that requires attention as persistent exposure to poor ai...

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Main Authors: Soh, Alexander, Dubey, Swapnil, Hedlund, Kenny, Kaushal, Jayant
Other Authors: Energy Research Institute @NTU
Format: Article
Language:English
Published: 2019
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Online Access:https://hdl.handle.net/10356/90085
http://hdl.handle.net/10220/49420
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-900852020-09-26T21:49:19Z Field testing of general ventilation devices and systems for particles removal efficiency and pressure drop Soh, Alexander Dubey, Swapnil Hedlund, Kenny Kaushal, Jayant Energy Research Institute @NTU Research Techno Plaza Mechanical Air Filtration Electrostatic Precipitator Science::Physics The prevalence of indoor occupancy in human societies today bring with it considerable issues pertaining to the indoor environment of enclosed residential and commercial spaces. Indoor air quality is one of those aspects of indoor environment that requires attention as persistent exposure to poor air quality can cause allergenic, visual and respiratory problems for occupants, inhibiting productivity and well-being. Today’s air filtration marketplace includes products, offered in many configurations, that present various advantages and disadvantages when compared to other air filter offerings. There are also different types of media incorporating varying principles of particle capture, each with its own advantage when applied in a ventilation and air conditioning application. How can filter users differentiate manufacturers’ claims and make intelligent decisions as to what products are applicable to meet their needs? Historically, many depended upon test reports. Unfortunately, today’s testing laboratory methodologies may not give a true barometer of a filter’s performance over time, as these filters are not tested under real life conditions. While high-efficiency filters can adequately address airborne contaminants, it is at the cost of increased energy on the air conditioning system. In this study, a comparison (in-situ test) was made between mechanical fine V-Bank air filters (ePM1 55% / F7) and Electrostatic Precipitators (Polarized filters) on the pressure drop incurred while ensuring adequate removal efficiency and satisfactory air quality for occupants. It was found that over 7 months of measurement at the tested airflow, no measurable increase in pressure drop was observed for the specimen mechanical filter, while the ESP (polarized filters) saw increasing pressure drop as the study progressed. Published version 2019-07-18T03:26:49Z 2019-12-06T17:40:20Z 2019-07-18T03:26:49Z 2019-12-06T17:40:20Z 2019 Journal Article Soh, A., Dubey, S., Hedlund, K., & Kaushal, J. (2019). Field Testing of General Ventilation Devices and Systems for Particles Removal Efficiency and Pressure Drop. Energy Procedia, 158, 4465-4470. doi:10.1016/j.egypro.2019.01.767 1876-6102 https://hdl.handle.net/10356/90085 http://hdl.handle.net/10220/49420 10.1016/j.egypro.2019.01.767 en Energy Procedia © 2019 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). 6 p. application/pdf
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Mechanical Air Filtration
Electrostatic Precipitator
Science::Physics
spellingShingle Mechanical Air Filtration
Electrostatic Precipitator
Science::Physics
Soh, Alexander
Dubey, Swapnil
Hedlund, Kenny
Kaushal, Jayant
Field testing of general ventilation devices and systems for particles removal efficiency and pressure drop
description The prevalence of indoor occupancy in human societies today bring with it considerable issues pertaining to the indoor environment of enclosed residential and commercial spaces. Indoor air quality is one of those aspects of indoor environment that requires attention as persistent exposure to poor air quality can cause allergenic, visual and respiratory problems for occupants, inhibiting productivity and well-being. Today’s air filtration marketplace includes products, offered in many configurations, that present various advantages and disadvantages when compared to other air filter offerings. There are also different types of media incorporating varying principles of particle capture, each with its own advantage when applied in a ventilation and air conditioning application. How can filter users differentiate manufacturers’ claims and make intelligent decisions as to what products are applicable to meet their needs? Historically, many depended upon test reports. Unfortunately, today’s testing laboratory methodologies may not give a true barometer of a filter’s performance over time, as these filters are not tested under real life conditions. While high-efficiency filters can adequately address airborne contaminants, it is at the cost of increased energy on the air conditioning system. In this study, a comparison (in-situ test) was made between mechanical fine V-Bank air filters (ePM1 55% / F7) and Electrostatic Precipitators (Polarized filters) on the pressure drop incurred while ensuring adequate removal efficiency and satisfactory air quality for occupants. It was found that over 7 months of measurement at the tested airflow, no measurable increase in pressure drop was observed for the specimen mechanical filter, while the ESP (polarized filters) saw increasing pressure drop as the study progressed.
author2 Energy Research Institute @NTU
author_facet Energy Research Institute @NTU
Soh, Alexander
Dubey, Swapnil
Hedlund, Kenny
Kaushal, Jayant
format Article
author Soh, Alexander
Dubey, Swapnil
Hedlund, Kenny
Kaushal, Jayant
author_sort Soh, Alexander
title Field testing of general ventilation devices and systems for particles removal efficiency and pressure drop
title_short Field testing of general ventilation devices and systems for particles removal efficiency and pressure drop
title_full Field testing of general ventilation devices and systems for particles removal efficiency and pressure drop
title_fullStr Field testing of general ventilation devices and systems for particles removal efficiency and pressure drop
title_full_unstemmed Field testing of general ventilation devices and systems for particles removal efficiency and pressure drop
title_sort field testing of general ventilation devices and systems for particles removal efficiency and pressure drop
publishDate 2019
url https://hdl.handle.net/10356/90085
http://hdl.handle.net/10220/49420
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