1 |
林健, 李莉, 吴念远, 等. 国际可再生能源发展现状及展望[C]//2019国际清洁能源论坛论文集. 2019: 263-300.
|
|
LIN J, Li L, WU N Y, et al. International renewable energy development status and outlook[C]//2019 International Forum on Clean Energy. 2019: 263-300.
|
2 |
VEERAKUMAR C, SREEKUMAR A. Phase change material based cold thermal energy storage: Materials, techniques and applications-A review[J]. International Journal of Refrigeration, 2016, 67: 271-289.
|
3 |
闫全英, 马超, 王威. 余热回收的相变换热装置设计及运行[J]. 实验室研究与探索, 2021, 40(6): 97-100.
|
|
YAN Q Y, MA C, WANG W. Design and operation of a phase change heat exchanger for waste heat recovery[J]. Research and Exploration in Laboratory, 2021, 40(6): 97-100.
|
4 |
LAMRANI B, JOHANNES K, KUZNIK F. Phase change materials integrated into building walls: An updated review[J]. Renewable and Sustainable Energy Reviews, 2021, 140: 110751.
|
5 |
HUANG G, WANG K, MARKIDES C N. Efficiency limits of concentrating spectral-splitting hybrid photovoltaic-thermal (PV-T) solar collectors and systems[J]. Light: Science & Applications, 2021, 10: 28.
|
6 |
李章溢, 房凯, 刘强, 等. 储能技术在电力调峰领域中的应用[J]. 电器与能效管理技术, 2019(10): 69-73.
|
|
LI Z Y, FANG K, LIU Q, et al. Application of energy storage technology in power peak regulation[J]. Electrical & Energy Management Technology, 2019(10): 69-73.
|
7 |
ZIVKOVIC B, FUJII I. An analysis of isothermal phase change of phase change material within rectangular and cylindrical containers[J]. Solar Energy, 2001, 70(1): 51-61.
|
8 |
刘丽辉, 莫雅菁, 孙小琴, 等. 板式相变储能单元的蓄热特性及其优化[J]. 储能科学与技术, 2020, 9(6): 1784-1789.
|
|
LIU L H, MO Y J, SUN X Q, et al. Thermal storage characteristics and optimization of plate-type phase change energy storage unit[J]. Energy Storage Science and Technology, 2020, 9(6): 1784-1789.
|
9 |
张明, 陈宝明, 常钊, 等. 不同结构金属翅片对石蜡相变传热的影响[J]. 煤气与热力, 2022, 42(1): 15-21.
|
|
ZHANG M, CHEN B M, CHANG Z, et al. Effect of metal fins with different structures on phase-change heat transfer of paraffin[J]. Gas & Heat, 2022, 42(1): 15-21.
|
10 |
于静梅, 刘耀鸿, 张凤忠, 等. 翅片强化相变储能蓄热性能的数值研究[J]. 太阳能学报, 2023, 44(6): 78-83.
|
|
YU J M, LIU Y H, ZHANG F Z, et al. Numerical study of heat storage performance in phase change energy storage enhanced by fins[J]. Acta Energiae Solaris Sinica, 2023, 44(6): 78-83.
|
11 |
OLIVESKI R, DE QUADRO TACQUES FILHO A, SCHRÖER I A. Melting and solidification in thermal storage: Influence of fin aspect ratio and positioning in a full charging and discharging cycle[J]. Journal of Energy Storage,2022,50:104303.1-104303.12.
|
12 |
JI C Z, QIN Z, DUBEY S, et al. Simulation on PCM melting enhancement with double-fin length arrangements in a rectangular enclosure induced by natural convection[J]. International Journal of Heat and Mass Transfer, 2018, 127: 255-265.
|
13 |
SALDI Z S, PRABOWO B, BUANA I, et al. Numerical simulations of latent heat thermal energy storage utilizing double inclined fin[C]//AIP Conference Proceedings, International Conference on Trends in Material Science and Inventive Materials: ICTMIM 2020. Coimbatore, India. AIP Publishing, 2020: 030062-1-030062-8.
|
14 |
SHOKOUHMAND H, KAMKARI B. Experimental investigation on melting heat transfer characteristics of lauric acid in a rectangular thermal storage unit[J]. Experimental Thermal and Fluid Science, 2013, 50: 201-212.
|
15 |
KAMKARI B, SHOKOUHMAND H. Experimental investigation of phase change material melting in rectangular enclosures with horizontal partial fins[J]. International Journal of Heat and Mass Transfer, 2014, 78: 839-851.
|
16 |
MOFFAT R J. Describing the uncertainties in experimental results[J]. Experimental Thermal and Fluid Science, 1988, 1(1): 3-17.
|
17 |
ZHAO B. Integrity of Newton's cooling law based on thermal convection theory of heat transfer and entropy transfer[J]. Scientific Reports, 2022, 12: 16292.
|
18 |
KAMKARI B, GROULX D. Experimental investigation of melting behaviour of phase change material in finned rectangular enclosures under different inclination angles[J]. Experimental Thermal and Fluid Science, 2018, 97: 94-108.
|
19 |
侯宜成. 高温定型复合相变储热材料的制备与性能研究[D]. 哈尔滨: 哈尔滨工业大学, 2022.
|
|
HOU Y C. Preparation and application of high temperature shape-stabilized phase change materials[D]. Harbin: Harbin Institute of Technology, 2022.
|
20 |
冯建辉. 定形相变材料的稳定性及温控特性研究[D]. 合肥: 中国科学技术大学, 2014.
|
|
FENG J H. Study on stability and temperature control characteristics of shape-stabilized phase change materials[D]. Hefei: University of Science and Technology of China, 2014.
|
21 |
SHARMA A, SHARMA S D, BUDDHI D. Accelerated thermal cycle test of acetamide, stearic acid and paraffin wax for solar thermal latent heat storage applications[J]. Energy Conversion and Management, 2002, 43(14): 1923-1930.
|
22 |
和琨, 郭秀娅, 张小盈, 等. 方腔内电场强化固液相变传热[J]. 物理学报, 2021, 70(14): 394-408.
|
|
HE K, GUO X Y, ZHANG X Y, et al. Numerical investigation of electrohydrodynamic solid-liquid phase change in square enclosure[J]. Acta Physica Sinica, 2021, 70(14): 394-408.
|
23 |
SHARIFI N, BERGMAN T L, FAGHRI A. Enhancement of PCM melting in enclosures with horizontally-finned internal surfaces[J]. International Journal of Heat and Mass Transfer, 2011, 54(19/20): 4182-4192.
|