• Complex
  • Title
  • Author
  • Keyword
  • Abstract
  • Scholars
High Impact Results & Cited Count Trend for Year Keyword Cloud and Partner Relationship

Query:

学者姓名:魏进家

Refining:

Source

Submit Unfold

Co-Author

Submit Unfold

Language

Submit

Clean All

Export Sort by:
Default
  • Default
  • Title
  • Year
  • WOS Cited Count
  • Impact factor
  • Ascending
  • Descending
< Page ,Total 15 >
Design and performance study on a large-scale hybrid CPV/T system based on unsteady-state thermal model EI
期刊论文 | 2019 , 427-439 | Solar Energy
Abstract&Keyword Cite

Abstract :

A hybrid CPV/T unit designed in this work concentrates solar radiation by a compound parabolic concentrator (CPC) and converts solar energy into electrical and thermal energy by a PV/T module. The CPC eliminating multiple reflections of solar radiation is defined as the ‘EMR-CPC’ in our previous work, which improves photoelectric and thermal conversion efficiencies. Two similar CPV/T units were tested with two-axis tracking device and south-north single-axis tracking device respectively, and the average photoelectric conversion efficiencies were 13% and 12%. A large-scale south-north tracking hybrid CPV/T system with sunlight collecting area of 810 m2 was built to explore practical application of this CPV/T unit. The whole-day thermal efficiency and total thermal output of the large-scale hybrid CPV/T system were 55% and 1,730,039 kJ respectively on April 14, 2017. The steady-state and unsteady-state thermal models of the hybrid CPV/T system were established and the energy loss was analyzed. The calculated whole-day comprehensive thermal efficiencies of the unsteady-state thermal model and the steady-state thermal model were 55.3% and 55.0% respectively, which were close to the measurement 55.8%. However, the steady-state thermal model failed to accurately predict the whole-day thermal efficiency variation of the system. In comparison, the unsteady-state thermal model accurately predicts instantaneous thermal efficiency of the system varying with meteorological conditions and its total daily heat output. © 2018

Keyword :

Compound parabolic concentrator Large-scale CPV/T system Meteorological condition Multiple reflections Performance study Photoelectric conversion efficiency Thermal efficiency Thermal model

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Wang, Zexin , Wei, Jinjia , Zhang, Gaoming et al. Design and performance study on a large-scale hybrid CPV/T system based on unsteady-state thermal model [J]. | Solar Energy , 2019 : 427-439 .
MLA Wang, Zexin et al. "Design and performance study on a large-scale hybrid CPV/T system based on unsteady-state thermal model" . | Solar Energy (2019) : 427-439 .
APA Wang, Zexin , Wei, Jinjia , Zhang, Gaoming , Xie, Huling , Khalid, Muhammad . Design and performance study on a large-scale hybrid CPV/T system based on unsteady-state thermal model . | Solar Energy , 2019 , 427-439 .
Export to NoteExpress RIS BibTex
Correlations for prediction of the bubble departure radius on smooth flat surface during nucleate pool boiling EI
期刊论文 | 2019 , 699-714 | International Journal of Heat and Mass Transfer
Abstract&Keyword Cite

Abstract :

Based on a modified force balance model, new correlations were proposed for the prediction of vapor bubble departure radius in saturated and subcooled pool boiling under atmospheric pressure. To predict the departure radius, the wall temperature and contact angle are two important input parameters. Instead of the static contact angle, the present correlations use the dynamic advancing contact angle at root of the bubble base at the moment before bubble detachment (i.e., the maximum dynamic advancing contact angle) to calculate the bubble departure radius. The results show that for the bubble departure radius obtained in this study, the developed correlation can predict all the data points within a maximum error of 3.8% in both normal earth gravity and 0.01ge reduced gravity. Moreover, for data sets in the literature including 1g saturated boiling, 1g subcooled boiling, saturated boiling in reduced gravity, and subcooled boiling in reduced gravity, it is also demonstrated that compared with the thirteen existing correlations, the proposed correlations exhibit a big improvement in predicting bubble departure radius. © 2018 Elsevier Ltd

Keyword :

Advancing contact angle Bubble detachments Force balance models Nucleate pool boiling Pool boiling Reduced gravity Static contact angle Sub-cooled boiling

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Wang, Xueli , Wu, Zan , Wei, Jinjia et al. Correlations for prediction of the bubble departure radius on smooth flat surface during nucleate pool boiling [J]. | International Journal of Heat and Mass Transfer , 2019 : 699-714 .
MLA Wang, Xueli et al. "Correlations for prediction of the bubble departure radius on smooth flat surface during nucleate pool boiling" . | International Journal of Heat and Mass Transfer (2019) : 699-714 .
APA Wang, Xueli , Wu, Zan , Wei, Jinjia , Sundén, Bengt . Correlations for prediction of the bubble departure radius on smooth flat surface during nucleate pool boiling . | International Journal of Heat and Mass Transfer , 2019 , 699-714 .
Export to NoteExpress RIS BibTex
Investigation on Heat Transfer Performance and Micronization Boiling Phenomenon of Hydrophilic/Hydrophobic Surfaces EI Scopus CSCD PKU
期刊论文 | 2018 , 39 (6) , 1373-1378 | Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics
Abstract&Keyword Cite

Abstract :

The boiling heat transfer performance of FC-72 was experimentally studied on hy- drophilic/hydrophobic surfaces based on micro-pin-finned structure. A high speed camera with microscope was applied to capture the micronization boiling phenomenon for the novel surfaces. From the comparison of the smooth chip and micro-pin-finned chip PF30-60 (micro-pin-fins with 30 µm fin side length and 60 µm fin height), it can be found that the hydrophilic/hydrophobic surfaces can efficiently decrease the wall temperature at the nucleate boiling onset, and can also decrease the wall superheat by 6∼9 K in the nucleate boiling region at the same heat flux. From the boiling phenomenon of the novel surface, it can be observed that large number of nucleation sites are formed in the micro-pin-finned area, and the hydrophilic property accelerates the departure of grown bubbles. These hydrophilic/hydrophobic surfaces can not only provide enough nucleation sites, but also prompt the bubble mergence and departure, enhancing boiling heat transfer greatly. © 2018, Science Press. All right reserved.

Keyword :

Boiling heat transfer Boiling heat transfer performance Heat transfer performance Hydrophilic properties Hydrophilic/hydrophobic Micronizations Nucleation sites Wall temperatures

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Kong, Xin , Wei, Jin-Jia , Zhang, Yong-Hai . Investigation on Heat Transfer Performance and Micronization Boiling Phenomenon of Hydrophilic/Hydrophobic Surfaces [J]. | Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics , 2018 , 39 (6) : 1373-1378 .
MLA Kong, Xin et al. "Investigation on Heat Transfer Performance and Micronization Boiling Phenomenon of Hydrophilic/Hydrophobic Surfaces" . | Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics 39 . 6 (2018) : 1373-1378 .
APA Kong, Xin , Wei, Jin-Jia , Zhang, Yong-Hai . Investigation on Heat Transfer Performance and Micronization Boiling Phenomenon of Hydrophilic/Hydrophobic Surfaces . | Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics , 2018 , 39 (6) , 1373-1378 .
Export to NoteExpress RIS BibTex
A coupled volume of fluid and level set method based on analytic PLIC for unstructured quadrilateral grids EI SCIE Scopus
期刊论文 | 2018 , 73 (4) , 189-205 | NUMERICAL HEAT TRANSFER PART B-FUNDAMENTALS
WoS CC Cited Count: 1 SCOPUS Cited Count: 1
Abstract&Keyword Cite

Abstract :

We develop a coupled volume of fluid and level set (VOSET) method for unstructured quadrilateral grids to simulate incompressible two-phase interfacial flows in irregular domains. In the method, an analytic piecewise linear interface calculation (PLIC) is first proposed and its solution speed is much faster (about five times) than that of Brent's iterative method; then an iterative geometric operation by which the level set function near interfaces can be calculated, is extended to unstructured quadrilateral grids; moreover, the volume fraction advection is solved by a Lagrangian-Eulerian advection scheme. Finally, the present method is validated by the single vortex flow problem, bubble rising problem and falling droplet problem. Our simulation results show good agreement with those in previous studies.

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Cao, Zhizhu , Sun, Dongliang , Yu, Bo et al. A coupled volume of fluid and level set method based on analytic PLIC for unstructured quadrilateral grids [J]. | NUMERICAL HEAT TRANSFER PART B-FUNDAMENTALS , 2018 , 73 (4) : 189-205 .
MLA Cao, Zhizhu et al. "A coupled volume of fluid and level set method based on analytic PLIC for unstructured quadrilateral grids" . | NUMERICAL HEAT TRANSFER PART B-FUNDAMENTALS 73 . 4 (2018) : 189-205 .
APA Cao, Zhizhu , Sun, Dongliang , Yu, Bo , Wei, Jinjia . A coupled volume of fluid and level set method based on analytic PLIC for unstructured quadrilateral grids . | NUMERICAL HEAT TRANSFER PART B-FUNDAMENTALS , 2018 , 73 (4) , 189-205 .
Export to NoteExpress RIS BibTex
POOL BOILING EXPERIMENT ON A MODIFIED MICROPIN-FINNED SURFACE WITH MECHANICAL OSCILLATION CPCI-S SCIE
会议论文 | 2018 , 49 (11) , 991-1001 | 3rd International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control (IWHT)
Abstract&Keyword Cite

Abstract :

To further enhance pool boiling heat transfer, a new oscillation device was proposed. An oscillating plate was located over the heater surface with a vertical oscillation amplitude of 20 mm and frequency of 6 Hz. Three N-type phosphorus-doped silicon chips were used as heater surfaces. One was a smooth surface, and the other two were micropin-finned chips with a fin side length of 30 mu m and fin height of 60 mu m (chip PF30-60), and the pin fins were arrayed with aligned and staggered arrangements, respectively. Absolute ethyl alcohol was used as a working fluid. The results showed that mechanical oscillation can enhance boiling heat transfer in both convective region and high heat flux region. The wall superheat showed a considerable decrease of 20-30 degrees C in the convective region by thinning the thermal boundary layer on the heater surface, and the critical heat flux could also be increased by 20%. In addition, the micropin-finned chips showed better performance due to much more fresh liquid supply from the interconnected tunnels formed by micropin fins, which is driven by capillary force.

Keyword :

boiling heat transfer oscillation micropin fin

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Wei, Jinjia , Kong, Xin , Ding, Jie et al. POOL BOILING EXPERIMENT ON A MODIFIED MICROPIN-FINNED SURFACE WITH MECHANICAL OSCILLATION [C] . 2018 : 991-1001 .
MLA Wei, Jinjia et al. "POOL BOILING EXPERIMENT ON A MODIFIED MICROPIN-FINNED SURFACE WITH MECHANICAL OSCILLATION" . (2018) : 991-1001 .
APA Wei, Jinjia , Kong, Xin , Ding, Jie , Zhang, Yonghai . POOL BOILING EXPERIMENT ON A MODIFIED MICROPIN-FINNED SURFACE WITH MECHANICAL OSCILLATION . (2018) : 991-1001 .
Export to NoteExpress RIS BibTex
Direct numerical simulation of surfactant solution flow in the wide-rib rectangular grooved channel SCIE Scopus
期刊论文 | 2018 , 64 (7) , 2898-2912 | AICHE JOURNAL
Abstract&Keyword Cite

Abstract :

The turbulent flow of surfactant solution in the wide-rib rectangular grooved channels was studied by direct numerical simulation. Moreover, the variations of near-wall streamwise vortices with time were discussed and the distributions of streamwise vortex radius, swirling strength and density were quantitatively investigated. It was found that the influence of microgrooves on the fluid mainly occurred within the buffer layer and microgrooves could induce numerous streamwise vortices with small size and swirling strength within the grooved valleys. The drag-reducing enhancement mechanism of microgroove in the surfactant solution could be mainly considered as the competing results between the restriction effect and tip effect of microgroove, and the essential factor should be the numerous secondary streamwise vortices with small size and swirling strength within the grooved valleys. Furthermore, a predicted method for the optimal drag-reducing size of microgroove was proposed, and the prediction values agreed well with the numerical results. (c) 2018 American Institute of Chemical Engineers AIChE J, 64: 2898-2912, 2018

Keyword :

direct numerical simulation vortices microgroove drag reduction surfactant solution

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Huang, Chonghai , Liu, Dongjie , Wei, Jinjia et al. Direct numerical simulation of surfactant solution flow in the wide-rib rectangular grooved channel [J]. | AICHE JOURNAL , 2018 , 64 (7) : 2898-2912 .
MLA Huang, Chonghai et al. "Direct numerical simulation of surfactant solution flow in the wide-rib rectangular grooved channel" . | AICHE JOURNAL 64 . 7 (2018) : 2898-2912 .
APA Huang, Chonghai , Liu, Dongjie , Wei, Jinjia , Yu, Bo , Zhang, Hongna , Cheng, Jianping . Direct numerical simulation of surfactant solution flow in the wide-rib rectangular grooved channel . | AICHE JOURNAL , 2018 , 64 (7) , 2898-2912 .
Export to NoteExpress RIS BibTex
Experimental study of pool boiling heat transfer on novel bistructured surfaces based on micro-pin-finned structure SCIE
期刊论文 | 2018 , 91 , 9-19 | EXPERIMENTAL THERMAL AND FLUID SCIENCE
WoS CC Cited Count: 5
Abstract&Keyword Cite

Abstract :

The pool boiling heat transfer performance of bistructured surface based on micro-pin-fmned structure was experimentally investigated in this study. A high speed camera with microscope was applied to capture the micronization boiling phenomenon and study the mechanism of bistructured surfaces. The micro-pin-finned area and the smooth area are fractally distributed on the heating surface by micromaching (dry etching) method. The P-doped silicon chips with 6 different surface types smooth chip, PF30-60 (micro-pin-fins with 30 pm fin side length and 60 gm fin height), PF30-60LS (large smooth strips distributed in micro-pin-finned area), PF30-60SS (small strips distributed in micro-pin-finned area), PF30-60LP (large smooth passages distributed in micro-pin finned area) and PF30-60SP (small passages distributed in micro-pin-finned area) were tested in FC-72. The experimental results indicate that the bistructured surfaces can efficiently enhance the heat transfer performance in the nucleate boiling region, and the critical heat flux (CHF) is also significantly improved. From the micronization boiling phenomenon it can be observed that the bistructured surfaces can lead to a more vitality of bubbles: large number of nucleation sites are formed in the micro-pin-finned area, and the small bubbles grow, collide, merge and move rapidly to the nearby smooth channel. When the bubble grows large enough, it will departure quickly under the force of channel pressure. The micronization phenomenon also reveals that the boundary lines between the structured and smooth areas are active nucleate site region.

Keyword :

Micronization phenomenon Micro-pin-fin Pool boiling Bistructured surface

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Kong, Xin , Zhang, Yonghai , Wei, Jinjia . Experimental study of pool boiling heat transfer on novel bistructured surfaces based on micro-pin-finned structure [J]. | EXPERIMENTAL THERMAL AND FLUID SCIENCE , 2018 , 91 : 9-19 .
MLA Kong, Xin et al. "Experimental study of pool boiling heat transfer on novel bistructured surfaces based on micro-pin-finned structure" . | EXPERIMENTAL THERMAL AND FLUID SCIENCE 91 (2018) : 9-19 .
APA Kong, Xin , Zhang, Yonghai , Wei, Jinjia . Experimental study of pool boiling heat transfer on novel bistructured surfaces based on micro-pin-finned structure . | EXPERIMENTAL THERMAL AND FLUID SCIENCE , 2018 , 91 , 9-19 .
Export to NoteExpress RIS BibTex
Performance investigation on a novel spectral splitting concentrating photovoltaic/thermal system based on direct absorption collection EI SCIE Scopus
期刊论文 | 2018 , 163 , 552-563 | SOLAR ENERGY
WoS CC Cited Count: 2
Abstract&Keyword Cite

Abstract :

The photovoltaic unit and the thermal unit are coupled in a concentrating photovoltaic/thermal (CPV/T) system and solar cells always operate at high temperature in order to obtain high quality thermal energy, which results in the overheating problem of solar cells. In the present study, a novel spectral splitting concentrating photovoltaic/thermal (SS-CPV/T) prototype based on direct absorption collection had been set up. The concentrator in the system is a truncated CPC by eliminating multiple reflections of solar radiation (called EMR), which was designed by our group. Water is used as both spectral splitting medium and heat transfer fluid in the spectral splitting subsystem. Distribution of the incidence angle of the irradiance illuminating on the filter at the outlet aperture of EMR was considered. The radiation transfer model was established to obtain the optical performance of the filter. And the electrical-thermal coupled model was proposed to predict the electrical and thermal performances of the SS-CPV/T system. When the total solar irradiance was about 1000 W/m(2) and the diffuse irradiance ratios were 15.0%, 17.8% and 24.0% respectively, the experimental electrical efficiencies of the SSCPV/T system were 9.6%, 9.4% and 9.0% respectively and the thermal efficiencies were 52.0%, 50.7% and 48.5% respectively. The theoretical electrical efficiencies were 10.4%, 10.2% and 9.8% respectively and the theoretical thermal efficiencies were 52.8%, 51.5% and 49.4% respectively. Comparison experiments on the electrical and thermal performances of the CPV/T systems with and without spectral splitting were also conducted. Under the condition of the same outlet fluid temperature the maximum temperature of solar cells in the SS-CPV/T system was about 5.6 degrees C lower than the temperature of outlet fluid and about 12 degrees C lower than the maximum temperature of solar cells in the CPV/T system without spectral splitting. Finally, the theoretical model was expanded to higher concentration ratios to study the effects of the concentration ratio on the electrical and thermal performances of the CPV/T systems with and without spectral splitting. The results illustrate that compared to the CPV/T system without spectral splitting, the SS-CPV/T system has higher electrical efficiency when the concentration ratio is larger than 10 and higher exergy efficiency when the concentration ratio is larger than 14 for the outlet fluid temperature of 50 degrees C. And for 70 degrees C outlet fluid temperature, these two concentration ratios shift to 9 and 15 respectively. Thus, spectral splitting technology is more advantageous in the CPV/T systems with moderate and high outlet fluid temperature and concentration ratios.

Keyword :

Direct absorption collection Concentrating photovoltaic/thermal Electrical-thermal coupled model Radiation transfer model Concentration ratio Spectral splitting

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Zhang, Gaoming , Wei, Jinjia , Xie, Huling et al. Performance investigation on a novel spectral splitting concentrating photovoltaic/thermal system based on direct absorption collection [J]. | SOLAR ENERGY , 2018 , 163 : 552-563 .
MLA Zhang, Gaoming et al. "Performance investigation on a novel spectral splitting concentrating photovoltaic/thermal system based on direct absorption collection" . | SOLAR ENERGY 163 (2018) : 552-563 .
APA Zhang, Gaoming , Wei, Jinjia , Xie, Huling , Wang, Zexin , Xi, Yonghao , Khalid, Muhammad . Performance investigation on a novel spectral splitting concentrating photovoltaic/thermal system based on direct absorption collection . | SOLAR ENERGY , 2018 , 163 , 552-563 .
Export to NoteExpress RIS BibTex
Coarse-Grained Molecular Dynamics Simulations of the Breakage and Recombination Behaviors of Surfactant Micelles EI CPCI-S SCIE Scopus
会议论文 | 2018 , 57 (27) , 9018-9027 | 254th National Meeting and Exposition of the American-Chemical-Society (ACS) on Chemistry's Impact on the Global Economy
Abstract&Keyword Cite

Abstract :

Surfactant molecules can form micellar network structures that can be applied for turbulent drag reduction through their breakage and recombination behaviors. One of the mechanisms of turbulent drag reduction by surfactants is the "viscoelastic theory" as proposed by DeGennes. However, evaluating the rupture and coalescence properties of network micelles is challenging. Here, we study the breakage and recombination behaviors of an individual rodlike micelle using Martini coarse-grained force field molecular dynamics simulations. The flexibility of an individual micelle can be measured by its breakage energy. Micelle recombination behaviors can be attributed to three mechanisms: the coalescence energy, zeta potential, or hydrophobic driving effect of the surfactant micelles. Thus, an excellent micelle that is beneficial for turbulent drag reduction is difficult to rupture but easy to recombine. The breakage behavior should be considered prior to the recombination behavior, because the breakage energy of an individual micelle is approximately 1-2 magnitudes greater than its coalescence energy under various conditions. Organic counterion salts, such as salicylate sodium, favor micelle recombination because of their electrostatic screen effect and uneven distribution on the surfactant micelle surface. Furthermore, this work brings a novel approach to understanding the breakage and recombination behaviors of surfactant micelles, providing an essential and scientific guidance to the effective use of surfactants in turbulent drag reduction. It also provides direct evidence to support the viscoelastic theory.

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Liu, Fei , Liu, Dongjie , Zhou, Wenjing et al. Coarse-Grained Molecular Dynamics Simulations of the Breakage and Recombination Behaviors of Surfactant Micelles [C] . 2018 : 9018-9027 .
MLA Liu, Fei et al. "Coarse-Grained Molecular Dynamics Simulations of the Breakage and Recombination Behaviors of Surfactant Micelles" . (2018) : 9018-9027 .
APA Liu, Fei , Liu, Dongjie , Zhou, Wenjing , Chen, Fei , Wei, Jinjia . Coarse-Grained Molecular Dynamics Simulations of the Breakage and Recombination Behaviors of Surfactant Micelles . (2018) : 9018-9027 .
Export to NoteExpress RIS BibTex
Pool boiling heat transfer of N-pentane on micro/nanostructured surfaces EI SCIE Scopus
期刊论文 | 2018 , 130 , 386-394 | INTERNATIONAL JOURNAL OF THERMAL SCIENCES
WoS CC Cited Count: 1 SCOPUS Cited Count: 1
Abstract&Keyword Cite

Abstract :

In the present study, one type of uniformly nanostructured surface (NPDS) was modified by electrophoretic deposition. Two kinds of micro/nanostructured surfaces (FLS1 and FLS2) were fabricated on copper surfaces by femtosecond laser processing. The micro/nanostructured surfaces were further modified by electrophoretic deposition. Afterwards, composite micro/nanostructured surfaces (CS1 and CS2) were developed. Saturated pool boiling heat transfer of the modified surfaces was investigated experimentally. An organic fluid, n-pentane was chosen as the working liquid. Heat transfer coefficient and critical heat flux (CHF) of smooth and micro/nanostructured surfaces were studied. The results showed that the heat transfer coefficient (HTC) of all structured surfaces increased obviously with a notable decrease of wall superheat at CHF compared to the smooth surface, which was attributed to increments in nucleation site density and heat transfer area. The CHF of femtosecond laser processed surfaces was also increased compared with the smooth surface due to a much higher liquid spreading ability, while a uniformly nanostructured surface has no augmentation in CHF. Composite micro/nanostructured surfaces show the best heat transfer performance among all tested surfaces, and the critical heat flux and heat transfer coefficient were increased by more than 60% and 300% over the smooth surface, respectively. The liquid spreading ability of n-pentane on the tested surfaces was measured. For the well wetting liquid, the liquid spreading ability of the heated surface, instead of the wettability, is the main factor for CHF enhancement. It is suggested that a surface with multiscale structures can be an efficient way for boiling heat transfer enhancement.

Keyword :

Nanostructure Microstructure Electrophoretic deposition Pool boiling heat transfer Femtosecond laser processing

Cite:

Copy from the list or Export to your reference management。

GB/T 7714 Liu, Bin , Cao, Zhen , Zhang, Yonghai et al. Pool boiling heat transfer of N-pentane on micro/nanostructured surfaces [J]. | INTERNATIONAL JOURNAL OF THERMAL SCIENCES , 2018 , 130 : 386-394 .
MLA Liu, Bin et al. "Pool boiling heat transfer of N-pentane on micro/nanostructured surfaces" . | INTERNATIONAL JOURNAL OF THERMAL SCIENCES 130 (2018) : 386-394 .
APA Liu, Bin , Cao, Zhen , Zhang, Yonghai , Wu, Zan , AnhDuc Pham , Wang, Wenjun et al. Pool boiling heat transfer of N-pentane on micro/nanostructured surfaces . | INTERNATIONAL JOURNAL OF THERMAL SCIENCES , 2018 , 130 , 386-394 .
Export to NoteExpress RIS BibTex
10| 20| 50 per page
< Page ,Total 15 >

Export

Results:

Selected

to

Format:
FAQ| About| Online/Total:2240/51351023
Address:XI'AN JIAOTONG UNIVERSITY LIBRARY(No.28, Xianning West Road, Xi'an, Shaanxi Post Code:710049) Contact Us:029-82667865
Copyright:XI'AN JIAOTONG UNIVERSITY LIBRARY Technical Support:Beijing Aegean Software Co., Ltd.