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Development of a Desiccant Wheel Hybrid HVAC System (DWHS) for Reduced A/C Power Consumption
Donghyun Kong,Jungho Kwon,Chunkyu Kwon,Changwon Lee 한국자동차공학회 2014 한국자동차공학회 부문종합 학술대회 Vol.2014 No.5
In this paper, it is proposed to apply the separate sensible and latent cooling (SSLC) technology to the automobile HVAC system. This technology enables the separate control on the temperature and humidity of the cabin air. The cooling demand of the cabin is delivered by two systems: a sensible cooling sub-system and a latent cooling sub-system. This technology can reduce the HVAC power consumption (reduce the fuel consumption), and also significantly reduce uncomfortable odor problems which were caused by the condensate water from the evaporator.
이정호(Jungho Lee),유청환(Cheong-Hwan Yu),이공훈(Kong-Hoon Lee) 대한설비공학회 2010 대한설비공학회 학술발표대회논문집 Vol.2010 No.6
A sort of numerical simulations are highly significant in the design-stage of a high-temperature heat flux gauge and also are helpful to understand heat transfer characteristics under a general heating process up to 900℃. In present study, a numerical simulation using a commercial finite element analysis software, COMSOL Multiphysics<SUP>?</SUP>. was employed to validate the heating characteristics of a heating block with a function of a novel high-temperature heat flux gauge. Moreover, the appropriate method of a heating was compared between a constant heat flux condition and an electric heating condition with PID control. The results show that the heating block was quickly reached a uniformly constant temperature, and an electric heating using PID control exhibits more realistic heating behavior than heating with a constant heat flux boundary condition.
Development of bioinformatics and multi-omics analyses in organoids
Doyeon Ha,JungHo Kong,Donghyo Kim,Kwanghwan Lee,Juhun Lee,Minhyuk Park,Hyunsoo Ahn,Youngchul Oh,Sanguk Kim 생화학분자생물학회 2023 BMB Reports Vol.56 No.1
Pre-clinical models are critical in gaining mechanistic and biologicalinsights into disease progression. Recently, patient-derivedorganoid models have been developed to facilitate our understandingof disease development and to improve the discoveryof therapeutic options by faithfully recapitulating in vivo tissuesor organs. As technological developments of organoid modelsare rapidly growing, computational methods are gaining attentionin organoid researchers to improve the ability to systematicallyanalyze experimental results. In this review, we summarize therecent advances in organoid models to recapitulate human diseasesand computational advancements to analyze experimentalresults from organoids.