Experimental study on the new type of electrical storage heater based on flat micro-heat pipe arrays

Gao F S. Haze weather, environment and energy: The strategies of HVAC industry (in Chinese). Heat Vent Air Cond, 2013, 9: 33–47

Ma X Q, Liu Z, Zhao X Y, et al. The spatial and temporal variation of haze and its relativity in the beijing-tianjin-hebei region (in Chinese). Areal Res Dev, 2016, 35: 134–138

Gao Z, Chen D M, Yang J H, et al. Study on rural low-voltage distribution network planning with coal-to-electricity project (in Chinese). Electrotech Electr, 2015, 5: 1–5

The Beijing News, 2015. Rural "coal to electricity" subsidies will be unified with the city (in Chinese). http://news.xinhuanet.com/energy/2015-04/06/c_127660081.htm

China Economic Net, 2013. 2015 residential electricity will be fully implemented peak and valley price (in Chinese). http://finance.ce.cn/rolling/201312/26/t20131226_1998315.shtml

Han D, Cai X G. Short-term scheduling of hydrothermal power system considering environmental protection and time-of-use price (in Chinese). Power Syst Technol, 2009, 14: 78–83

Tan Z F, Chen G J, Qi J X, et al. Research on time-of-use price at generation side based on optimal configuration of power resources (in Chinese). Power Syst Technol, 2008, 7: 61–65

Pei Z Y, Dong C, Xin Y Z. Review of operation and management of integrating wind power in China (in Chinese). Electr Power, 2010, 11: 20

Yang S F. Heat storage system with abandon of a wind power plant in Inner Mongolia (in Chinese). Build Energ Env, 2015, 2: 103–105

Pazouki S, Haghifam M R. Optimal planning and scheduling of energy hub in presence of wind, storage and demand response under uncertainty. Int J Electrical Power Energ Syst, 2016, 80: 219–239

National Energy Administration, 2016. Wind power grid operation in 2016 (in Chinese). http://www.nea.gov.cn/2017- 01/26/c_136014615.htm

Dunn B, Kamath H, Tarascon J M. Electrical energy storage for the grid: a battery of choices. Science, 2011, 334: 928–935

Blarke M B, Yazawa K, Shakouri A, et al. Thermal battery with CO2 compression heat pump: Techno-economic optimization of a high-efficiency Smart Grid option for buildings. Energ and Buildings, 2012, 50: 128–138

Jamieson N V, Sundberg R, Lindell S, et al. Preservation of the canine liver for 24–48 hours using simple cold storage with UW solution. Transplantation, 1988, 46: 517–522

Jia J, Wan Y, Shou W W, et al. Ice storage system of China Pavilion in EXPO 2010 (in Chinese). Refrig Air Condit, 2012, 6: 100–103

Li G, Hwang Y, Radermacher R. Review of cold storage materials for air conditioning application. Int J Refrigeration, 2012, 35: 2053–2077

Sun Y, Wang S, Xiao F, et al. Peak load shifting control using different cold thermal energy storage facilities in commercial buildings: A review. Energ Conv Manage, 2013, 71: 101–114

Dinker A, Agarwal M, Agarwal G D. Heat storage materials, geometry and applications: A review. J Energ Institute, 2015, 90: 1–11

Gao Y F, Sun Y J. Application of the electric-boiler thermal storage for heating in air-conditioning system (in Chinese). Energ Eng, 2002, 2: 28–31

Ip K, Gates J. Thermal storage for sustainable dwellings. In: Proceedings of Sustainable Building, Maastricht, Netherland, 2000

Sharma A, Tyagi V V, Chen C R, et al. Review on thermal energy storage with phase change materials and applications. Renew Sustain Energ Rev, 2009, 13: 318–345

Al-Abidi A A, Bin Mat S, Sopian K, et al. Review of thermal energy storage for air conditioning systems. Renew Sustain Energ Rev, 2012, 16: 5802–5819

Lu Y W, Yu Q, Du W B, et al. Natural convection heat transfer of molten salt in a single energy storage tank. Sci China Technol Sci, 2016, 59: 1244–1251

Shang B, Ma Y, Hu R, et al. Passive thermal management system for downhole electronics in harsh thermal environments. Appl Thermal Eng, 2017, 118: 593–599

Xia S J, Chen L G, Sun F R. Entransy dissipation minimization for liquid-solid phase change processes. Sci China Technol Sci, 2010, 53: 960–968

Zhang G W, Hu P, Liu M H. Thermal performances of non-equidistant helical-coil phase change accumulator for latent heat storage. Sci China Technol Sci, 2017, 60: 668–677

Hadjieva M, Kanev S, Argirov J. Thermophysical properties of some paraffins applicable to thermal energy storage. Sol Energ Mater Sol Cells, 1992, 27: 181–187

Himran S, Suwono A, Mansoori G A. Characterization of alkanes and paraffin waxes for application as phase change energy storage medium. Energ Sources, 1994, 16: 117–128

Alkan C. Enthalpy of melting and solidification of sulfonated paraffins as phase change materials for thermal energy storage. ThermoChim Acta, 2006, 451: 126–130

Farid M M, Husian R M. An electrical storage heater using the phase-change method of heat storage. Energ Conv Manage, 1990, 30: 219–230

Zhao J, Zhou Z C, Pu Y L, et al. Design and application of electric heating high temperature phase change energy storage device (in Chinese). Agric Eng, 2016, 6: 98–102

Wang X, Liu J, Zhang Y, et al. Experimental research on a kind of novel high temperature phase change storage heater. Energ Conv Manage, 2006, 47: 2211–2222

Ma G Y, Wang Z H, Yan R S, et al. Making and capability testing of electric heater with phase change accumulator (in Chinese). J Fushun Pet Inst, 2003, 3: 50–53

Zhao Y H, Zhang K R, Diao Y H. Heat pipe with micro-pore tubes array and making method thereof and heat exchanging system. U.S. Patent, US20110203777 A1, 2011-8-25

Xie J C, Wang Z, Zhou X. Intelligent power measuring instrument (in Chinese). China Patent, CN201773152 U, 2011-3-23

Gill R S, Singh S, Singh P P. Low cost solar air heater. Energ Conv Manage, 2012, 57: 131–142

Zhao Y H, Wang J Y, Diao Y H, et al. Heat transfer characteristics of flat micro-heat pipe array (in Chinese). CIESC J, 2011, 62: 336–343

Chen J H, Bo Y J, Li P S, et al. The emission characteristic of air pollutants from civil furnace in Beijing (in Chinese). In: Proceedings of the 10th National Conference on Atmospheric Environment, Nanning, China, 2003. 303–307

Ye J D, Zhang Y J, Jiang J Y, et al. Comparison and analysis about mound coal and raw coal for rural heating (in Chinese). Build Energ Effic, 2016, 11: 102–103

Lv K F, Tong L G, Yi S W, et al. Analysis and application of heating control strategy of off-peak electricity heating system (in Chinese). Heat Refriger, 2013, 9: 64–66

He P. Heating engineering (in Chinese). 4th ed. Beijing: China Building Industry Press, 2009. 167

Qiu J D. Research on rural heating mode (in Chinese). Rural Electrif, 2015, 10: 20–20

Zhu T, Zhao Y, Diao Y, et al. Experimental investigation and performance evaluation of a vacuum tube solar air collector based on micro heat pipe arrays. J Cleaner Production, 2017, 142: 3517–3526