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MY RESEARCH ACHIEVEMENTS IN MOLECULAR THERMODYNAMICS
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作者 Hu YingI East China University of Chemical Industries, Shanghai) 《Bulletin of the Chinese Academy of Sciences》 1996年第1期68-69,共2页
I have been engaged in teaching and research work in physical chemistry ever since I graduated from university.Starting from the early 1970s,I have focused my research on molecular thermodynamics,which deals with ther... I have been engaged in teaching and research work in physical chemistry ever since I graduated from university.Starting from the early 1970s,I have focused my research on molecular thermodynamics,which deals with thermodynamic problems in engineering practice at the molecular level.Based on statistical mechanics, computerized simulation and experimental results,the establishment of molecular thermodynamic models for fluid mixtures is the centerpiece of my work. Theoretically,it expounds the structure of fluid mixtures,and the effect of intermolecular interactions on structural and 展开更多
关键词 MY research ACHIEVEMENTS IN MOLECULAR thermodynamicS
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A numerical simulation of latent heating within Typhoon Molave 被引量:1
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作者 LIU Yang LIN Wenshi +3 位作者 LI Jiangnan WANG Gang YANG Song FENG Yerong 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2017年第7期39-47,共9页
The weather research and forecasting(WRF) model is a new generation mesoscale numerical model with a fine grid resolution(2 km), making it ideal to simulate the macro-and micro-physical processes and latent heatin... The weather research and forecasting(WRF) model is a new generation mesoscale numerical model with a fine grid resolution(2 km), making it ideal to simulate the macro-and micro-physical processes and latent heating within Typhoon Molave(2009). Simulations based on a single-moment, six-class microphysical scheme are shown to be reasonable, following verification of results for the typhoon track, wind intensity, precipitation pattern, as well as inner-core thermodynamic and dynamic structures. After calculating latent heating rate, it is concluded that the total latent heat is mainly derived from condensation below the zero degree isotherm, and from deposition above this isotherm. It is revealed that cloud microphysical processes related to graupel are the most important contributors to the total latent heat. Other important latent heat contributors in the simulated Typhoon Molave are condensation of cloud water, deposition of cloud ice, deposition of snow, initiation of cloud ice crystals, deposition of graupel, accretion of cloud water by graupel, evaporation of cloud water and rainwater,sublimation of snow, sublimation of graupel, melting of graupel, and sublimation of cloud ice. In essence, the simulated latent heat profile is similar to ones recorded by the Tropical Rainfall Measuring Mission, although specific values differ slightly. 展开更多
关键词 latent heat weather research and forecasting model Typhoon Molave thermodynamic structure cloud microphysics zero degree isotherm
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