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Optimal Operation of ERV System Installed in the Apartment Houses in South Korea


Affiliations
1 School of Architectural, Civil, Environmental and Energy Engineering, Kyungpook National University, Korea, Republic of
2 School of Architecture and Civil Engineering, Kyungpook National University, Korea, Republic of
3 Department of Fire and Disaster Prevention Engineering, Changshin University, Korea, Republic of
 

High air-tightness and high heat-insulation of buildings cause lack of fresh air inside the buildings. Operating the ventilation system in an apartment house may improve the indoor air quality, but may generate the problems, such as high airconditioning load and cold draft. In order to improve the indoor air quality while maintaining pleasant heat environment to a certain level, it is necessary to consume energy for cooling and heating. Energy Recovery Ventilation system (here in after “ERVs”) is the typical way to minimize the consumption of energy. To solve the problem, the installation of ERVs has been made mandatory for new apartment buildings that are constructed in the Republic of Korea. The interest in ERVs has increased recently in that the System is viewed as helping to: 1. Reduce energy costs of heating and cooling apartment buildings, which costs claim a significant portion of apartment building management budgets, and 2. Secure appropriate levels of ventilation in such buildings. Despite the enthusiasm, the lack of efficient implementation of ERVs persists. Based on the rationale, this study realized the optimal operating algorithm for ERVs. The study took actual data on temperature and humidity; operation status on air conditioners and ERVs; electricity consumptions; and PMV. The study analyzed airconditioning ventilation loads and energy-saving effects related thereto according to the optimal operating algorithm for ERVs. The results showed statistically significant figures that contribute to the reduction of loads and energy costs. Implications of the study include: 1. Introducing the optimal ERVs to apartment buildings will likely help the residents and building managers to better respond to changes occurring to the outside environment and to the inside loads being applied to indoor HVAC systems; and 2. Implementation of ERVs would likely help reduce the loads being imposed on the HVAC systems in apartment buildings.

Keywords

Apartment Houses, Energy Consumption, ERVs (Energy Recovery Ventilation System), Field Survey, Optional Operation, Resident
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  • Optimal Operation of ERV System Installed in the Apartment Houses in South Korea

Abstract Views: 197  |  PDF Views: 0

Authors

Ji-Hye Ryu
School of Architectural, Civil, Environmental and Energy Engineering, Kyungpook National University, Korea, Republic of
Won-Hwa Hong
School of Architecture and Civil Engineering, Kyungpook National University, Korea, Republic of
Ji-Ae Lee
School of Architectural, Civil, Environmental and Energy Engineering, Kyungpook National University, Korea, Republic of
Wook-Jung Na
Department of Fire and Disaster Prevention Engineering, Changshin University, Korea, Republic of

Abstract


High air-tightness and high heat-insulation of buildings cause lack of fresh air inside the buildings. Operating the ventilation system in an apartment house may improve the indoor air quality, but may generate the problems, such as high airconditioning load and cold draft. In order to improve the indoor air quality while maintaining pleasant heat environment to a certain level, it is necessary to consume energy for cooling and heating. Energy Recovery Ventilation system (here in after “ERVs”) is the typical way to minimize the consumption of energy. To solve the problem, the installation of ERVs has been made mandatory for new apartment buildings that are constructed in the Republic of Korea. The interest in ERVs has increased recently in that the System is viewed as helping to: 1. Reduce energy costs of heating and cooling apartment buildings, which costs claim a significant portion of apartment building management budgets, and 2. Secure appropriate levels of ventilation in such buildings. Despite the enthusiasm, the lack of efficient implementation of ERVs persists. Based on the rationale, this study realized the optimal operating algorithm for ERVs. The study took actual data on temperature and humidity; operation status on air conditioners and ERVs; electricity consumptions; and PMV. The study analyzed airconditioning ventilation loads and energy-saving effects related thereto according to the optimal operating algorithm for ERVs. The results showed statistically significant figures that contribute to the reduction of loads and energy costs. Implications of the study include: 1. Introducing the optimal ERVs to apartment buildings will likely help the residents and building managers to better respond to changes occurring to the outside environment and to the inside loads being applied to indoor HVAC systems; and 2. Implementation of ERVs would likely help reduce the loads being imposed on the HVAC systems in apartment buildings.

Keywords


Apartment Houses, Energy Consumption, ERVs (Energy Recovery Ventilation System), Field Survey, Optional Operation, Resident



DOI: https://doi.org/10.17485/ijst%2F2015%2Fv8i24%2F116933