A comparative optimal design of fluid-saturated prismatic cellular metal honeycombs (PCMHs) having different cell shapes is presented for thermal management applications. Based on the periodic topology of each PCMH,...A comparative optimal design of fluid-saturated prismatic cellular metal honeycombs (PCMHs) having different cell shapes is presented for thermal management applications. Based on the periodic topology of each PCMH, a unit cell (UC) for thermal transport analysis was selected to calculate its effective thermal conductivity. Without introducing any empirical coefficient, we modified and extended the analytical model of parallel-series thermal-electric network to a wider porosity range (0.7 ~ 0.98) by considering the effects of two-dimensional local heat conduction in solid ligaments inside each UC. Good agreement was achieved between analytical predictions and numerical simulations based on the method of finite volume. The concept of ligament heat conduction efficiency (LTCE) was proposed to physically explain the mechanisms underlying the effects of ligament configuration on effective thermal conductivity (ETC). Based upon the proposed theory, a construct strategy was developed for designing the ETC by altering the equivalent interaction angle with the direction of heat flow: relatively small average interaction angle for thermal conduction and relatively large one for thermal insulation.展开更多
Dear Editor,Protein-protein interactions(PPIs)often play important roles in biological processes(Zhang et al.,2016).The split Renilla luciferase complementation assay(SRLCA)is one of the methods in studying PPIs.SRLCA...Dear Editor,Protein-protein interactions(PPIs)often play important roles in biological processes(Zhang et al.,2016).The split Renilla luciferase complementation assay(SRLCA)is one of the methods in studying PPIs.SRLCA is based on the complementation of the N-terminal domains of Renilla luciferase(LN)and C-terminal domains展开更多
An extremely simple formula to estimate the heat of formation of complexes between an ion and a polar molecule or between highly polar systems is presented.The formula is entirely electrostatic and the expression used...An extremely simple formula to estimate the heat of formation of complexes between an ion and a polar molecule or between highly polar systems is presented.The formula is entirely electrostatic and the expression used is verified by means of perturbation theory.This formula is test- ed for several ion-molecule and molecule-molecule pairs.It is also applied to estimate the heat of hydration of simple salts.展开更多
基金supported by the National Natural Science Foundation of China(51506160,11472208,11472209)China Post-Doctoral Science Foundation Project(2015M580845)+1 种基金the Fundamental Research Funds for Xi’an Jiaotong University(xjj2015102)the Beijing Key Lab of Heating,Gas Supply,Ventilating and Air Conditioning Engineering(NR2016K01)
文摘A comparative optimal design of fluid-saturated prismatic cellular metal honeycombs (PCMHs) having different cell shapes is presented for thermal management applications. Based on the periodic topology of each PCMH, a unit cell (UC) for thermal transport analysis was selected to calculate its effective thermal conductivity. Without introducing any empirical coefficient, we modified and extended the analytical model of parallel-series thermal-electric network to a wider porosity range (0.7 ~ 0.98) by considering the effects of two-dimensional local heat conduction in solid ligaments inside each UC. Good agreement was achieved between analytical predictions and numerical simulations based on the method of finite volume. The concept of ligament heat conduction efficiency (LTCE) was proposed to physically explain the mechanisms underlying the effects of ligament configuration on effective thermal conductivity (ETC). Based upon the proposed theory, a construct strategy was developed for designing the ETC by altering the equivalent interaction angle with the direction of heat flow: relatively small average interaction angle for thermal conduction and relatively large one for thermal insulation.
基金supported by the Initiative Research Program of Wuhan University(No.410100020)the advanced talent independent research program of Wuhan University(No.410100011)the National Natural Science Foundation of China(No.210700228)
文摘Dear Editor,Protein-protein interactions(PPIs)often play important roles in biological processes(Zhang et al.,2016).The split Renilla luciferase complementation assay(SRLCA)is one of the methods in studying PPIs.SRLCA is based on the complementation of the N-terminal domains of Renilla luciferase(LN)and C-terminal domains
文摘An extremely simple formula to estimate the heat of formation of complexes between an ion and a polar molecule or between highly polar systems is presented.The formula is entirely electrostatic and the expression used is verified by means of perturbation theory.This formula is test- ed for several ion-molecule and molecule-molecule pairs.It is also applied to estimate the heat of hydration of simple salts.
