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Dynamic prediction of the pre-dehumidification of a radiant floor cooling and displacement ventilation system based on computational fluid dynamics and a back-propagation neural network: A case study of an office room

Meng Su, Jiying Liu, Shiyu Zhou, Jikui Miao, Moon Keun Kim

2022Indoor and Built Environment19 citationsDOIOpen Access PDF

Abstract

This study was carried out to solve the problem of condensation in radiant floor cooling systems. Computational fluid dynamics simulation and back-propagation neural network prediction were employed to conduct thorough research to predict the effects of the displacement ventilation dehumidification phase in an office building located in Jinan, China. The effects of the air supply temperature ( T as ), air supply flow rate ( V as ), air supply humidity ratio ( H as ), floor temperature ( T floor ), initial indoor temperature ( T ini ) and relative humidity ( H ini ) on the duration and energy consumption of pre-dehumidification were investigated. The big data show the air dew point temperature ( T ad ) produced the most significant effect on the pre-dehumidification duration and energy consumption, while T as would cause the least significant effect. With the decrease of T ad , the pre-dehumidification duration and energy consumption were, respectively, decreased by 59.1% and 44.2%. Furthermore, with the variation of V as , the energy consumption exhibited a fluctuating trend. This study provides a novel and effective method to assess the pre-dehumidification control of radiant floor surfaces by considering different initial indoor conditions and air supply parameters.

Topics & Concepts

Displacement ventilationAirflowVentilation (architecture)Dew pointHumidityEnergy consumptionEnvironmental scienceRelative humidityNatural ventilationAir temperatureComputational fluid dynamicsMeteorologySimulationEngineeringMechanical engineeringAerospace engineeringElectrical engineeringPhysicsBuilding Energy and Comfort OptimizationWind and Air Flow StudiesUrban Heat Island Mitigation
Dynamic prediction of the pre-dehumidification of a radiant floor cooling and displacement ventilation system based on computational fluid dynamics and a back-propagation neural network: A case study of an office room | Litcius