储热技术基础(Ⅰ)——储热的基本原理及研究新动向

[1] Renewable energy carriers: Hydrogen or liquid air/nitrogen?.[J].Yongliang Li;Haisheng Chen;Xinjing Zhang;Chunqing Tan;Yulong Ding.Applied Thermal Engineering.2010, 14

[2] Fundamentals and applications of cryogen as a thermal energy carrier: A critical assessment [J]. INTERNATIONAL JOURNAL OF THERMAL SCIENCES, 2010, 49 (06) : 941 - 949

[3] Energy cogeneration systems and energy management strategy.[J].Riad Benelmir;Michel Feidt.Energy Conversion and Management.1998, 16

[4] 金属基相变材料的研究进展及应用 [J]. 储能科学与技术, 2012, 1 (01) : 74 - 81

[5] 高温蓄热技术的研究现状及展望 [J]. 建筑节能, 2011, 39 (09) : 32 - 38

[6] 相变储热材料研究进展 [J]. 过程工程学报, 2010, 10 (06) : 1231 - 1241

[7] A one-step method for producing microencapsulated phase change materials.[J].Waipeng Lee;Zenfira Musina;.Particuology.2010, 06

[8] 纳米胶囊相变材料的研究进展 [J]. 材料导报, 2006, (12) : 42 - 45

[9] 相变胶囊的蓄放热特性分析 [J]. 太阳能学报, 2005, (06) : 825 - 830

[10] 热能存储技术与应用.[M].郭茶秀;魏新利编著;.化学工业出版社.2005,

[1] Renewable energy carriers: Hydrogen or liquid air/nitrogen?.[J].Yongliang Li;Haisheng Chen;Xinjing Zhang;Chunqing Tan;Yulong Ding.Applied Thermal Engineering.2010, 14

[2] Fundamentals and applications of cryogen as a thermal energy carrier: A critical assessment [J]. INTERNATIONAL JOURNAL OF THERMAL SCIENCES, 2010, 49 (06) : 941 - 949

[3] Energy cogeneration systems and energy management strategy.[J].Riad Benelmir;Michel Feidt.Energy Conversion and Management.1998, 16

[4] 金属基相变材料的研究进展及应用 [J]. 储能科学与技术, 2012, 1 (01) : 74 - 81

[5] 高温蓄热技术的研究现状及展望 [J]. 建筑节能, 2011, 39 (09) : 32 - 38

[6] 相变储热材料研究进展 [J]. 过程工程学报, 2010, 10 (06) : 1231 - 1241

[7] A one-step method for producing microencapsulated phase change materials.[J].Waipeng Lee;Zenfira Musina;.Particuology.2010, 06

[8] 纳米胶囊相变材料的研究进展 [J]. 材料导报, 2006, (12) : 42 - 45

[9] 相变胶囊的蓄放热特性分析 [J]. 太阳能学报, 2005, (06) : 825 - 830

[10] 热能存储技术与应用.[M].郭茶秀;魏新利编著;.化学工业出版社.2005,