Measurement of indoor environmental parameters and analysis of the condensation phenomenon in urban utility tunnels

Tai, Chuanmin; Gao, Tian; Lei, Wenjun

doi:10.1177/1420326x211056485

Cited by 6 publications

(1 citation statement)

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“…In general, as the temperature decreases, the amount of water vapor that air can contain also decreases. Therefore, dew condensation occurs when the amount of water vapor in the air increases or when the temperature of the air decreases [32]. The wall temperature of the utility tunnel is affected by the underground soil temperature and maintains a constant temperature throughout the year.…”

Section: Experimental Procedures 1) Field Experimentsmentioning

confidence: 99%

Air Conditioning System Design to Reduce Condensation in an Underground Utility Tunnel Using CFD

Park

Lee

et al. 2022

IEEE Access

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In this study, the internal environment such as the air temperature, humidity, and wall temperature of the underground utility tunnel, was analyzed. The current status and problems of the air conditioning system were examined by analyzing the capacity of the exhaust fan and the air velocity inside the utility tunnel. The field experiment showed that the utility tunnel has a relative humidity of 95% or higher for most sections during summer. The deviation of the internal air temperature was about 4 ℃ depending on the section, and the dew condensation occurred. However, most of the exhaust fans has a capacity below the standard minimum air velocity of 2.5m•s -1 . In particular, in the section where dew condensation occurred, the air velocity was 0.26 to 0.97 m•s -1 , indicating the presence of stagnant air inside the facility. Therefore, this study attempted to minimize dew condensation by calculating the proper exhaust fan capacity using computational fluid dynamics and installing circulation fans and duct systems in the section where the dew condensation occurred. As a result, when a circulation fan was installed, it was possible to increase the air velocity inside the utility tunnel, and the relative humidity could be reduced by about 78%. By installing a duct, the direct supply of external air or the discharge of internal humid air was simulated for the section where dew condensation occurred. The result showed that the relative humidity could be reduced by about 78% when the duct system was operated in the intake direction. INDEX TERMSCondensation, CFD, Circulation fan, Duct, Ventilation, Underground utility tunnel I. INTRODUCTION A. THE CONCEPT AND CURRENT STATUS OF THE UNDERGROUND UTILITY TUNNELAn underground utility tunnel is a structure that accommodates and supplies two or more types of urban lifelines such as pipelines for electricity, gas, water supply, telecommunication, and sewage. In addition, it is a facility installed underground to improve the aesthetics, preservation of road structures, and smooth flow of traffic, especially in urban areas [1]. If a single pipeline for each electricity, gas, and water is constructed in underground, the increased cost due to construction work and the formation of a complex underground structure network can cause problems in the This article has been accepted for publication in IEEE Access.

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Section: Experimental Procedures 1) Field Experimentsmentioning

confidence: 99%