新世纪跨季节显热储热项目发展现状与分析
摘要:发展跨季节储热技术对实现我国供热领域的绿色低碳转型具有重要意义。本文从跨季节储热项目角度出发,分别对跨季节储热的原理及分类、国内外发展现状、项目统计与参数分析等方面进行了综述。重点对所统计的44个国内外跨季节显热储热项目进行了典型技术经济参数分析、热源分析与材料分析。最后指出国内外跨季节储热项目数量增多、储热规模持续扩大,发展大容量跨季节水体储热、实现跨季节储热热源多能互补、规模化应用热泵、进一步开发适用于跨季节储热系统的新型材料可能是未来跨季节储热发展的重要方向。
关键词:跨季节显热储热水体储热储热热源热泵技术经济参数材料
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参考文献[1] 江亿,胡姗.中国建筑部门实现碳中和的路径[J].暖通空调,2021,51(5):1- 13.
[2] 清华大学建筑节能研究中心.中国建筑节能年度发展研究报告2023(城市能源系统专题)[M].北京:中国建筑工业出版社,2023:2- 32.
[3] 龙惟定.碳中和城市建筑能源系统(4):储能篇[J].暖通空调,2022,52(11):1- 12.
[4] 江亿.建筑领域的低碳发展路径[J].建筑,2022(14):50- 51.
[5] 赵璇,赵彦杰,王景刚,等.太阳能跨季节储热技术研究进展[J].新能源进展,2017,5(1):73- 80.
[6] 贺明飞,王志峰,原郭丰,等.水体型太阳能跨季节储热技术简介[J].建筑节能,2021,49(10):66- 70.
[7] 江亿.零碳供热实现碳中和的重要任务[C/OL]//首届工业园区热能应用低碳化发展专题研讨会,2023.[2023-03-01].https://www.china-heating.org.cn/electure/832300200.html.
[8] MAHON H,O'CONNOR D,FRIEDRICH D,et al.A review of thermal energy storage technologies for seasonal loops[J].Energy,2022,239:122207.
[9] BOTT C,DRESSEL I,BAYER P.State-of-technology review of water-based closed seasonal thermal energy storage systems[J].Renewable & sustainable energy reviews,2019,113:109241.
[10] ZHOU X Z,XU Y J,ZHANG X J,et al.Large scale underground seasonal thermal energy storage in China[J].Journal of energy storage,2021,33:102026.
[11] BAI Y K,YANG M,FAN J H,et al.Influence of geometry on the thermal performance of water pit seasonal heat storages for solar district heating[J].Building simulation,2021,14(3):579- 599.
[12] 张俊月,郭放,黄海龙,等.工业余热跨季节储热系统优化及经济性分析[J].太阳能学报,2020,41(1):47- 53.
[13] YANG T R,LIU W,KRAMER G J,et al.Seasonal thermal energy storage:a techno-economic literature review[J].Renewable & sustainable energy reviews,2021,139:110732.
[14] 曾光,纪阳,符津铭,等.热储能技术研究现状、热点趋势与应用进展[J].中国电机工程学报,2023,43(增刊1):127- 142.
[15] XIANG Y T,XIE Z C,FURBO S,et al.A comprehensive review on pit thermal energy storage:technical elements,numerical approaches and recent applications[J].Journal of energy storage,2022,55:105716.
[16] MARGEN P H.Thermal energy storage in rock chambers:a complement to nuclear power[EB/OL].[2023-03-07].https://www.osti.gov/biblio/4726519.
[17] MARX R,BAUER D,NUßBICKER-LUX J,et al.Monitoring results from German central solar heating plants with seasonal thermal energy storage[C/OL]//Effstock 2009,2009.[2023-03-20].https://www.researchgate.net/publication/225004652_Monitoring_results_from_German_central_solar_heating_plants_with_seasonal_thermal_energy_storage.
[18] KIM M H,HEO J,SCHILT U.The characteristics of solar thermal collector and storage system including seasonal thermal energy storage in South Korea[C/OL]//ISES Solar World Congress,2017.[2023-03-20].https://proceedings.ises.org/paper/swc2017/swc2017-0195-Kim.pdf.
[19] SIFNAIOS I,JENSEN A R,FURBO S,et al.Performance comparison of two water pit thermal energy storage (PTES) systems using energy,exergy,and stratification indicators[J].Journal of energy storage,2022,52:104947.
[20] WYRWA A,RACZYN'Ν'SKI M,KULIK M,et al.Greening of the district heating systems:case study of local systems[J].Energies,2022,15(9):3165.
[21] VEKS.Heat pit storage optimises district heating[EB/OL].[2023-03-25].https://www.districtenergyaward.org/wp-content/uploads/2023/09/point-35-heat-pit-stor age-folder-2022uk-7dc39.pdf.
[22] 董菲,倪龙,姚杨,等.浅层岩土蓄能加浅层地温能才是地源热泵可持续利用的低温热源[J].暖通空调,2009,39(2):70- 72.
[23] TU Delft.20 million EU Grant for research underground heat storage[EB/OL].[2023-04-10].https://www.tudelft.nl/en/2022/citg/20-million-eu-grant-for-research-underground-heat-storage.
[24] OFweek太阳能光伏网.挪威使用钻孔热能储存太阳能打造新型季节性光伏储能项目[EB/OL].[2023-04-10].https://solar.ofweek.com/2020-05/ART-260006-8130-30441728.html.
[25] 倪龙,荣莉,马最良.含水层储能的研究历史及未来[J].建筑热能通风空调,2007,26(1):18- 24.
[26] FLEUCHAUS P,GODSCHALK B,STOBER I,et al.Worldwide application of aquifer thermal energy storage:a review[J].Renewable & sustainable energy reviews,2018,94:861- 876.
[27] TCP IEA.Country report Netherlands[EB/OL].[2023-04-12].https://iea-es.org/wp-content/uploads/ public/ NL- Updated- Country- Report- ES-TCP- XC95.pdf.
[28] PELLEGRINI M,BLOEMENDAL M,HOEKSTRA N,et al.Low carbon heating and cooling by combining various technologies with aquifer thermal energy storage[J].Science of the total environment,2019,665:1- 10.
[29] 朱宁,王潇洋,温仁新.跨季节蓄热太阳能集中供热系统论证分析:河北经贸大学跨季节蓄热太阳能集中供热系统示范项目设计[J].建设科技,2014(9):108- 111.
[30] TAO T,ZHANG F,ZHANG W,et al.Low cost and marketable operational experiences for a solar heating system with seasonal thermal energy storage (SHSSTES) in Hebei (China)[J].Energy procedia,2015,70:267- 274.
[31] 中国科学院电工研究所.电工所研制的小型集中型太阳能供热示范系统在张家口黄帝城小镇成功运行并持续供热3个月[EB/OL].[2023-04-12].http://www.bjb.cas.cn/kjdt2016/201901/t20190115_5229933.html.
[32] 国家光热联盟.中科院电工所研制的小型集中型太阳能供热示范系统在张家口黄帝城小镇成功运行[EB/OL].[2023-04-12].http://cnste.org/html/xiangmu/2019/0109/4338.html.
[33] 华业阳光.清华大学:华业阳光内蒙古赤峰“工业余热+太阳能”蓄热供暖示范项目[EB/OL].[2023-04-25].http://www.cnste.org/html/jishu/2020/0506/6313.html.
[34] 国家能源局.全国可再生能源供暖典型案例汇编[EB/OL].[2023-05-03].http://www.nea.gov.cn/download/kzsnydxan2021.pdf.
[35] HUANG J P,FAN J H,FURBO S.Demonstration and optimization of a solar district heating system with ground source heat pumps[J].Solar energy,2020,202:171- 189.
[36] 能源界.含水层储能技术现场交流会在上海举行[EB/OL].[2023-05-12].http://www.nengyuanjie.net/article/4066.html.
[37] MANGOLD D,RAAB S,MÜLLER-STEINHAGEN H.Saisonale wärmespeicherung in solaren Großanlagen:status und perspektiven[C/OL]//DGS-Tagung Solares Heizen,2003.[2023-05-14].https://www.deutsche-digitale-bibliothek.de/item/WO7MUSJU5XCNLMFJP GHBMAYBMIC52OCV.
[38] MANGOLD D,SCHMIDT T.Die neuen pilotprojekte mit langzeit-wärmespeicher[C/OL]//16th Symposium on Thermal Solar Energy,2006.[2023-05-14].https://www.osti.gov/etdeweb/biblio/20938914.
[39] SCHMIDT T,MANGOLD D,MÜLLER-STEINHAGEN H.Central solar heating plants with seasonal storage in Germany[J].Solar energy,2004,76(1/2/3):165- 174.
[40] MANGOLD D,SCHMIDT T,MÜLLER-STEINHAGEN H.Solaranlagen und nahwärmenetze:erfahrungen aus dem programm solarthermie-2000[C/OL]//AGFW-Seminar “Fernwärmeund Solarenergienutzung”,2002.[2023-05-20].https://www.researchgate.net/publication/293112833_Saisonale_Warmespeicher_in_solar_unterstutzten_Nahwarmenetzen_-_Erfahrungen_aus_dem_Programm_Solarthermie-2000.
[41] KEIL C,PLURA S,RADSPIELER M,et al.Application of customized absorption heat pumps for utilization of low-grade heat sources[J].Applied thermal engineering,2008,28(16):2070- 2076.
[42] Saisonalspeicher.de.Stadtwerke münchen[EB/OL].[2023-05-22].https://www.saisonalspeicher.de/home/projekte/projekte-in-deutschland/muenchen/.
[43] YUMRUTAS R,UNSAL M.Energy analysis and modeling of a solar assisted house heating system with a heat pump and an underground energy storage tank[J].Solar energy,2012,86(3):983- 993.
[44] HESARAKI A,HALIOVIC A,HOLMBERG S.Low-temperature heat emission combined with seasonal thermal storage and heat pump[J].Solar energy,2015,119:122- 133.
[45] JIAO Q T,LIU W W,LIU G H,et al.Data measurement and analysis of a solar heating system with seasonal storage[J].Energy procedia,2015,70:241- 248.
[46] 太阳界智库.拉日铁路首次通车四季沐歌跨季节蓄热呵护乘客抵御严寒[EB/OL].[2023-05-22].https://mp.weixin.qq.com/s?_biz=MzA5ODE 4OTEwNw==&mid=200739598&idx=5&sn=b60999588c66360c2fd17e3eb76c97f1&chksm=1e96c 15229e14844a5d50f1df70140f850f7b2e97ec425b445c5 a9c576f92ce987057200c612&scene=27.
[47] KIM M H,KIM D,HEO J,et al.Techno-economic analysis of hybrid renewable energy system with solar district heating for net zero energy community[J].Energy,2019,187:115916.
[48] LAUNAY S,KADOCH B,LE METAYER O,et al.Analysis strategy for multi-criteria optimization:application to inter-seasonal solar heat storage for residential building needs[J].Energy,2019,171:419- 434.
[49] PAVLOV G K,OLESEN B W.Seasonal ground solar thermal energy storage:review of systems and applications[C/OL]//Ises Solar World Congress,2011.[2023-05-22].https://backend.orbit.dtu.dk/ws/portalfiles/portal/6383017/SEASONAL+GROU ND+SOLAR.pdf.
[50] Saisonalspeicher.de.Der saisonale wärmespeicher in chemnitz[EB/OL].[2023-05-22].https://www.saisonalspeicher.de/home/projekte/projekte-in-deuts chland/chemnitz/.
[51] LOTTNER V,SCHULZ M E,HAHNE E.Solar-assisted district heating plants:status of the German programme solarthermie-2000[J].Solar energy,2000,69(6):449- 459.
[52] BAUER D,MARX R,NUßBICKER-LUX J,et al.German central solar heating plants with seasonal heat storage[J].Solar energy,2010,84(4):612- 623.
[53] Saisonalspeicher.de.Der saisonale wärmespeicher in eggenstein[EB/OL].[2023-05-25].https://www.saisonalspeicher.de/ home/ projekte/ projekte- in- deutschland/ eggenstein/.
[54] OCHS F,NUßBICKER-LUX J,MARX R,et al.Solar assisted district heating system with seasonal thermal energy storage in Eggenstein-Leopoldshafen[C/OL]//EUROSUN 2008,2008.[2023-05-25].https://task7.iea-shc.org/data/sites/1/publications/2008_Ochs_Eurosun_039.pdf.
[55] DOMINKOVIC D F,COSIC B,MEDIC Z B,et al.A hybrid optimization model of biomass trigeneration system combined with pit thermal energy storage[J].Energy conversion and management,2015,104:90- 99.
[56] NOVO A V,BAYON J R,CASTRO-FRESNO D,et al.Review of seasonal heat storage in large basins:water tanks and gravel-water pits[J].Applied energy,2010,87(2):390- 397.
[57] Saisonalspeicher.de.Marstal fjernvarme[EB/OL].[2023-05-25].https://www.saisonalspeicher.de/home/projekte/projekte-in-europa/marstal/.
[58] S∅RENSEN P A,SCHMIDT T.Design and construction of large scale heat storages for district heating in Denmark[C/OL]//14th International Conference on Energy Storage,2018.[2023-06-08].https://planenergi.dk/wp-content/uploads/2018/05/Soerensen-and-Schmidt_Design-and-Construction-of-Large-Scale-Heat-Storages-12.03.2018-004.pdf.
[59] Saisonalspeicher.de.Dronninglund fjernvarme[EB/OL].[2023-06-08].https://www.saisonalspeicher.de/home/projekte/projekte-in-europa/dronninglund/.
[60] SIFNAIOS I,GAUTHIER G,TRIER D,et al.Dronninglund water pit thermal energy storage dataset[J].Solar energy,2023,251:68- 76.
[61] COMMISSION E,CENTRE J R,AUMAITRE V,et al.Efficient district heating and cooling systems in the EU:case studies analysis,replicable key success factors and potential policy implications[EB/OL].[2023-06-08].https://op.europa.eu/en/publication-detail/-/publication/f428333d-dede-11e6-ad7c-01aa75ed71a1/language-en.
[62] WINTERSCHEID C,SCHMIDT T.Gram district heating monitoring date evaluation for the years 2016-2017[R/OL].Stuttgart:Steinbeis Research Institute for Solar and Sustainable Thermal Energy Systems,2019.[2023-06-10].https://vdocuments.mx/gram-district-heating-monitoring-data-evaluation-thermal-energy-systems-1-introduction.html?page=2.
[63] Solarthermalworld.org.Seasonal pit heat storage:cost benchmark of 30 EUR/m3[EB/OL].[2023-06-10].https://solarthermalworld.org/news/seasonal-pit-heat-storage-cost-benchmark-30-eurm3/.
[64] EUDP.A presentation of the Danish pit and borehole thermal energy storages in Brædstrup,Marstal,Dronninglund and Gram[EB/OL].[2023-06-10].https://www.energiforskning.dk/sites/energiforskning.dk/files/slutrapporter/sol_til_fjernvarme_brochure_oplag_2_til_web01-_0.pdf.
[65] 黄俊鹏,徐尤锦.欧洲太阳能区域供热的发展现状与趋势[J].建设科技,2016(23):63- 69.
[66] Romboll.Vojens fjernvarme[EB/OL].[2023-06-10].https://stateofgreen.com/en/solutions/world-largest-thermal-pit-storage-in-vojens/.
[67] Ramboll.Toftlund fjernvarme udvidelse solvarme project[EB/OL].[2023-06-15].https://stateofgreen.com/en/solution-providers/ramboll/.
[68] Pedersen MBS.Energilager tager form i toftlund[EB/OL].[2023-06-15].https://www.energy-supply.dk/article/view/341832/energilager_tager_form_i_toftlund.
[69] Asian Development Bank.Solar district heating in the People's Republic of China:status and development potential[EB/OL].[2023-06-15].https://www.amazon.com/dp/9292615203/ref=sr_1_1 keywords=9789292615208&qid=1564714827&s=gateway&sr=8-1#detailBullets_feature_div.
[70] LUNDH M,DALENBACK J O.Swedish solar heated residential area with seasonal storage in rock:initial evaluation[J].Renewable energy,2008,33(4):703- 711.
[71] RAD F M,FUNG A S.Solar community heating and cooling system with borehole thermal energy storage:review of systems[J].Renewable and sustainable energy reviews,2016,60:1550- 1561.
[72] Saisonalspeicher.de.Stadtwerke crailsheim[EB/OL].[2023-06-18].https://www.saisonalspeicher.de/home/projekte/projekte-in-deutschland/crailsheim/.
[73] MANGOLD D.Seasonal storage:a German success story[J].Sun & wind energy,2007,2007(1):48- 58.
[74] SIBBITT B,MCCLENAHAN D,DJEBBAR R,et al.Measured and simulated performance of a high solar fraction district heating system with seasonal storage[C/OL]//ISES Solar World Congress 2011,2011.[2023-06-20].https://proceedings.ises.org/paper/swc2011/swc2011-0263-Sibbitt.pdf.
[75] RILEY B.Okotoks:seasonal storage of solar energy for space heat in a new community[EB/OL].[2023-06-20].https://www.eceee.org/static/media/uploads/site-2/library/conference_proceedings/ACEEE_buildings/2006/Panel_11/p11_11/paper.pdf.
[76] NILSSON E,ROHDIN P.Performance evaluation of an industrial borehole thermal energy storage (BTES) project:experiences from the first seven years of operation[J].Renewable energy,2019,143:1022- 1034.
[77] SHIM B O.International case studies on the eco-friendly energy towns with hybrid thermal energy supply system and borehole thermal energy storage (BTES)[J].Economic and environmental geology,2018,51(1):67- 76.
[78] Saisonalspeicher.de.Braedstrup fjernvarme[EB/OL].[2023-06-25].https://www.saisonalspeicher.de/home/projekte/projekte-in-europa/braedstrup/.
[79] XU J,LI Y,WANG R Z,et al.Performance investigation of a solar heating system with underground seasonal energy storage for greenhouse application[J].Energy,2014,67:63- 73.
[80] LIZANA J,ORTIZ C,SOLTERO V M,et al.District heating systems based on low-carbon energy technologies in Mediterranean areas[J].Energy,2017,120:397- 416.
[81] GUO F,ZHU X Y,ZHANG J Y,et al.Large-scale living laboratory of seasonal borehole thermal energy storage system for urban district heating[J].Applied energy,2020,264:114763.
[82] RENALDI R,FRIEDRICH D.Techno-economic analysis of a solar district heating system with seasonal thermal storage in the UK[J].Applied energy,2019,236:388- 400.
[83] SCHMIDT T J,KABUS F,MÜLLER-STEINHAGEN H M.The central solar heating plant with aquifer thermal energy store in Rostock:results after four years of operation[C/OL]//Proceedings of Eurosun 2004,2004.[2023-06-22].https://docslib.org/doc/2051378/the-central-solar-heating-plant-with-aquifer-thermal-energy-store-in-rostock-results-after-four-years-of-operation.
[84] RUDOLPH H,ZHOU Y,SONG P,et al.Aquifer thermal energy storage in the Netherlands:a review[C/OL]//2018 International Conference on Power System Technology (POWERCON),2018.[2023-06-25].https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=8602211.
[85] BEHI R,MIRMOHAMMADI S A,SUMA A,et al.Optimized energy recovery in line with balancing of an ATES[C/OL]//ASME 2014 Power Conference,2014.[2023-07-02].https://research.tue.nl/en/publications/optimized-energy-recovery-in-line-with-balancing-of-an-ates.
[86] FLEUCHAUS P,SCHÜPPLER S,STEMMLE R,et al.Aquiferspeicher in Deutschland[J].Grundwasser,2021,26(2):123- 134.
[87] GHAEBI H,BAHADORI M N,SAIDI M H.Performance analysis and parametric study of thermal energy storage in an aquifer coupled with a heat pump and solar collectors,for a residential complex in Tehran,Iran[J].Applied thermal engineering,2014,62(1):156- 170.
[88] LARSEN H H,PETERSEN L S.DTU international energy report 2015:energy systems integration for the transition to non-fossil energy systems[R/OL].Denmark:Technical University of Denmark,2015.[2023-07-02].https://backend.orbit.dtu.dk/ws/portalfiles/portal/119583507/DTU_International_Energy_Report_2015_rev.pdf.
[89] IEA-SHC-Task52.Classification and benchmarking of solar thermal systems in urban environments[EB/OL].[2023-07-02].http://task52.iea-shc.org/data/ sites/1/ publications/ IEA- SHC- Task52- STC1- Classification-and-benchmarking-Report-2016-03-31.pdf.
[90] S∅RENSEN S V.全球存量最大的待开发能源:余热[EB/OL].[2023-07-10].https://mma.prnewswire.com/media/2032367/PDF.pdf.
[91] 中国绿发会大气治理与低碳发展工作委员会.PM2.5&CO2论坛为双碳背景下的大气治理献智献策[EB/OL].[2023-07-15].http://www.cbcgdf.org/NewsShow/4854/18326.html.
[92] 倪龙,董世豪,郑渊博,等.热泵技术在中低温热能生产中的减碳效益[J].暖通空调,2022,52(11):23- 34.
[93] HESARAKI A,HOLMBERG S,HAGHIGHAT F.Seasonal thermal energy storage with heat pumps and low temperatures in building projects:a comparative review[J].Renewable & sustainable energy reviews,2015,43:1199- 1213.
[94] XU J,WANG R Z,LI Y.A review of available technologies for seasonal thermal energy storage[J].Solar energy,2014,103:610- 638.
[2] 清华大学建筑节能研究中心.中国建筑节能年度发展研究报告2023(城市能源系统专题)[M].北京:中国建筑工业出版社,2023:2- 32.
[3] 龙惟定.碳中和城市建筑能源系统(4):储能篇[J].暖通空调,2022,52(11):1- 12.
[4] 江亿.建筑领域的低碳发展路径[J].建筑,2022(14):50- 51.
[5] 赵璇,赵彦杰,王景刚,等.太阳能跨季节储热技术研究进展[J].新能源进展,2017,5(1):73- 80.
[6] 贺明飞,王志峰,原郭丰,等.水体型太阳能跨季节储热技术简介[J].建筑节能,2021,49(10):66- 70.
[7] 江亿.零碳供热实现碳中和的重要任务[C/OL]//首届工业园区热能应用低碳化发展专题研讨会,2023.[2023-03-01].https://www.china-heating.org.cn/electure/832300200.html.
[8] MAHON H,O'CONNOR D,FRIEDRICH D,et al.A review of thermal energy storage technologies for seasonal loops[J].Energy,2022,239:122207.
[9] BOTT C,DRESSEL I,BAYER P.State-of-technology review of water-based closed seasonal thermal energy storage systems[J].Renewable & sustainable energy reviews,2019,113:109241.
[10] ZHOU X Z,XU Y J,ZHANG X J,et al.Large scale underground seasonal thermal energy storage in China[J].Journal of energy storage,2021,33:102026.
[11] BAI Y K,YANG M,FAN J H,et al.Influence of geometry on the thermal performance of water pit seasonal heat storages for solar district heating[J].Building simulation,2021,14(3):579- 599.
[12] 张俊月,郭放,黄海龙,等.工业余热跨季节储热系统优化及经济性分析[J].太阳能学报,2020,41(1):47- 53.
[13] YANG T R,LIU W,KRAMER G J,et al.Seasonal thermal energy storage:a techno-economic literature review[J].Renewable & sustainable energy reviews,2021,139:110732.
[14] 曾光,纪阳,符津铭,等.热储能技术研究现状、热点趋势与应用进展[J].中国电机工程学报,2023,43(增刊1):127- 142.
[15] XIANG Y T,XIE Z C,FURBO S,et al.A comprehensive review on pit thermal energy storage:technical elements,numerical approaches and recent applications[J].Journal of energy storage,2022,55:105716.
[16] MARGEN P H.Thermal energy storage in rock chambers:a complement to nuclear power[EB/OL].[2023-03-07].https://www.osti.gov/biblio/4726519.
[17] MARX R,BAUER D,NUßBICKER-LUX J,et al.Monitoring results from German central solar heating plants with seasonal thermal energy storage[C/OL]//Effstock 2009,2009.[2023-03-20].https://www.researchgate.net/publication/225004652_Monitoring_results_from_German_central_solar_heating_plants_with_seasonal_thermal_energy_storage.
[18] KIM M H,HEO J,SCHILT U.The characteristics of solar thermal collector and storage system including seasonal thermal energy storage in South Korea[C/OL]//ISES Solar World Congress,2017.[2023-03-20].https://proceedings.ises.org/paper/swc2017/swc2017-0195-Kim.pdf.
[19] SIFNAIOS I,JENSEN A R,FURBO S,et al.Performance comparison of two water pit thermal energy storage (PTES) systems using energy,exergy,and stratification indicators[J].Journal of energy storage,2022,52:104947.
[20] WYRWA A,RACZYN'Ν'SKI M,KULIK M,et al.Greening of the district heating systems:case study of local systems[J].Energies,2022,15(9):3165.
[21] VEKS.Heat pit storage optimises district heating[EB/OL].[2023-03-25].https://www.districtenergyaward.org/wp-content/uploads/2023/09/point-35-heat-pit-stor age-folder-2022uk-7dc39.pdf.
[22] 董菲,倪龙,姚杨,等.浅层岩土蓄能加浅层地温能才是地源热泵可持续利用的低温热源[J].暖通空调,2009,39(2):70- 72.
[23] TU Delft.20 million EU Grant for research underground heat storage[EB/OL].[2023-04-10].https://www.tudelft.nl/en/2022/citg/20-million-eu-grant-for-research-underground-heat-storage.
[24] OFweek太阳能光伏网.挪威使用钻孔热能储存太阳能打造新型季节性光伏储能项目[EB/OL].[2023-04-10].https://solar.ofweek.com/2020-05/ART-260006-8130-30441728.html.
[25] 倪龙,荣莉,马最良.含水层储能的研究历史及未来[J].建筑热能通风空调,2007,26(1):18- 24.
[26] FLEUCHAUS P,GODSCHALK B,STOBER I,et al.Worldwide application of aquifer thermal energy storage:a review[J].Renewable & sustainable energy reviews,2018,94:861- 876.
[27] TCP IEA.Country report Netherlands[EB/OL].[2023-04-12].https://iea-es.org/wp-content/uploads/ public/ NL- Updated- Country- Report- ES-TCP- XC95.pdf.
[28] PELLEGRINI M,BLOEMENDAL M,HOEKSTRA N,et al.Low carbon heating and cooling by combining various technologies with aquifer thermal energy storage[J].Science of the total environment,2019,665:1- 10.
[29] 朱宁,王潇洋,温仁新.跨季节蓄热太阳能集中供热系统论证分析:河北经贸大学跨季节蓄热太阳能集中供热系统示范项目设计[J].建设科技,2014(9):108- 111.
[30] TAO T,ZHANG F,ZHANG W,et al.Low cost and marketable operational experiences for a solar heating system with seasonal thermal energy storage (SHSSTES) in Hebei (China)[J].Energy procedia,2015,70:267- 274.
[31] 中国科学院电工研究所.电工所研制的小型集中型太阳能供热示范系统在张家口黄帝城小镇成功运行并持续供热3个月[EB/OL].[2023-04-12].http://www.bjb.cas.cn/kjdt2016/201901/t20190115_5229933.html.
[32] 国家光热联盟.中科院电工所研制的小型集中型太阳能供热示范系统在张家口黄帝城小镇成功运行[EB/OL].[2023-04-12].http://cnste.org/html/xiangmu/2019/0109/4338.html.
[33] 华业阳光.清华大学:华业阳光内蒙古赤峰“工业余热+太阳能”蓄热供暖示范项目[EB/OL].[2023-04-25].http://www.cnste.org/html/jishu/2020/0506/6313.html.
[34] 国家能源局.全国可再生能源供暖典型案例汇编[EB/OL].[2023-05-03].http://www.nea.gov.cn/download/kzsnydxan2021.pdf.
[35] HUANG J P,FAN J H,FURBO S.Demonstration and optimization of a solar district heating system with ground source heat pumps[J].Solar energy,2020,202:171- 189.
[36] 能源界.含水层储能技术现场交流会在上海举行[EB/OL].[2023-05-12].http://www.nengyuanjie.net/article/4066.html.
[37] MANGOLD D,RAAB S,MÜLLER-STEINHAGEN H.Saisonale wärmespeicherung in solaren Großanlagen:status und perspektiven[C/OL]//DGS-Tagung Solares Heizen,2003.[2023-05-14].https://www.deutsche-digitale-bibliothek.de/item/WO7MUSJU5XCNLMFJP GHBMAYBMIC52OCV.
[38] MANGOLD D,SCHMIDT T.Die neuen pilotprojekte mit langzeit-wärmespeicher[C/OL]//16th Symposium on Thermal Solar Energy,2006.[2023-05-14].https://www.osti.gov/etdeweb/biblio/20938914.
[39] SCHMIDT T,MANGOLD D,MÜLLER-STEINHAGEN H.Central solar heating plants with seasonal storage in Germany[J].Solar energy,2004,76(1/2/3):165- 174.
[40] MANGOLD D,SCHMIDT T,MÜLLER-STEINHAGEN H.Solaranlagen und nahwärmenetze:erfahrungen aus dem programm solarthermie-2000[C/OL]//AGFW-Seminar “Fernwärmeund Solarenergienutzung”,2002.[2023-05-20].https://www.researchgate.net/publication/293112833_Saisonale_Warmespeicher_in_solar_unterstutzten_Nahwarmenetzen_-_Erfahrungen_aus_dem_Programm_Solarthermie-2000.
[41] KEIL C,PLURA S,RADSPIELER M,et al.Application of customized absorption heat pumps for utilization of low-grade heat sources[J].Applied thermal engineering,2008,28(16):2070- 2076.
[42] Saisonalspeicher.de.Stadtwerke münchen[EB/OL].[2023-05-22].https://www.saisonalspeicher.de/home/projekte/projekte-in-deutschland/muenchen/.
[43] YUMRUTAS R,UNSAL M.Energy analysis and modeling of a solar assisted house heating system with a heat pump and an underground energy storage tank[J].Solar energy,2012,86(3):983- 993.
[44] HESARAKI A,HALIOVIC A,HOLMBERG S.Low-temperature heat emission combined with seasonal thermal storage and heat pump[J].Solar energy,2015,119:122- 133.
[45] JIAO Q T,LIU W W,LIU G H,et al.Data measurement and analysis of a solar heating system with seasonal storage[J].Energy procedia,2015,70:241- 248.
[46] 太阳界智库.拉日铁路首次通车四季沐歌跨季节蓄热呵护乘客抵御严寒[EB/OL].[2023-05-22].https://mp.weixin.qq.com/s?_biz=MzA5ODE 4OTEwNw==&mid=200739598&idx=5&sn=b60999588c66360c2fd17e3eb76c97f1&chksm=1e96c 15229e14844a5d50f1df70140f850f7b2e97ec425b445c5 a9c576f92ce987057200c612&scene=27.
[47] KIM M H,KIM D,HEO J,et al.Techno-economic analysis of hybrid renewable energy system with solar district heating for net zero energy community[J].Energy,2019,187:115916.
[48] LAUNAY S,KADOCH B,LE METAYER O,et al.Analysis strategy for multi-criteria optimization:application to inter-seasonal solar heat storage for residential building needs[J].Energy,2019,171:419- 434.
[49] PAVLOV G K,OLESEN B W.Seasonal ground solar thermal energy storage:review of systems and applications[C/OL]//Ises Solar World Congress,2011.[2023-05-22].https://backend.orbit.dtu.dk/ws/portalfiles/portal/6383017/SEASONAL+GROU ND+SOLAR.pdf.
[50] Saisonalspeicher.de.Der saisonale wärmespeicher in chemnitz[EB/OL].[2023-05-22].https://www.saisonalspeicher.de/home/projekte/projekte-in-deuts chland/chemnitz/.
[51] LOTTNER V,SCHULZ M E,HAHNE E.Solar-assisted district heating plants:status of the German programme solarthermie-2000[J].Solar energy,2000,69(6):449- 459.
[52] BAUER D,MARX R,NUßBICKER-LUX J,et al.German central solar heating plants with seasonal heat storage[J].Solar energy,2010,84(4):612- 623.
[53] Saisonalspeicher.de.Der saisonale wärmespeicher in eggenstein[EB/OL].[2023-05-25].https://www.saisonalspeicher.de/ home/ projekte/ projekte- in- deutschland/ eggenstein/.
[54] OCHS F,NUßBICKER-LUX J,MARX R,et al.Solar assisted district heating system with seasonal thermal energy storage in Eggenstein-Leopoldshafen[C/OL]//EUROSUN 2008,2008.[2023-05-25].https://task7.iea-shc.org/data/sites/1/publications/2008_Ochs_Eurosun_039.pdf.
[55] DOMINKOVIC D F,COSIC B,MEDIC Z B,et al.A hybrid optimization model of biomass trigeneration system combined with pit thermal energy storage[J].Energy conversion and management,2015,104:90- 99.
[56] NOVO A V,BAYON J R,CASTRO-FRESNO D,et al.Review of seasonal heat storage in large basins:water tanks and gravel-water pits[J].Applied energy,2010,87(2):390- 397.
[57] Saisonalspeicher.de.Marstal fjernvarme[EB/OL].[2023-05-25].https://www.saisonalspeicher.de/home/projekte/projekte-in-europa/marstal/.
[58] S∅RENSEN P A,SCHMIDT T.Design and construction of large scale heat storages for district heating in Denmark[C/OL]//14th International Conference on Energy Storage,2018.[2023-06-08].https://planenergi.dk/wp-content/uploads/2018/05/Soerensen-and-Schmidt_Design-and-Construction-of-Large-Scale-Heat-Storages-12.03.2018-004.pdf.
[59] Saisonalspeicher.de.Dronninglund fjernvarme[EB/OL].[2023-06-08].https://www.saisonalspeicher.de/home/projekte/projekte-in-europa/dronninglund/.
[60] SIFNAIOS I,GAUTHIER G,TRIER D,et al.Dronninglund water pit thermal energy storage dataset[J].Solar energy,2023,251:68- 76.
[61] COMMISSION E,CENTRE J R,AUMAITRE V,et al.Efficient district heating and cooling systems in the EU:case studies analysis,replicable key success factors and potential policy implications[EB/OL].[2023-06-08].https://op.europa.eu/en/publication-detail/-/publication/f428333d-dede-11e6-ad7c-01aa75ed71a1/language-en.
[62] WINTERSCHEID C,SCHMIDT T.Gram district heating monitoring date evaluation for the years 2016-2017[R/OL].Stuttgart:Steinbeis Research Institute for Solar and Sustainable Thermal Energy Systems,2019.[2023-06-10].https://vdocuments.mx/gram-district-heating-monitoring-data-evaluation-thermal-energy-systems-1-introduction.html?page=2.
[63] Solarthermalworld.org.Seasonal pit heat storage:cost benchmark of 30 EUR/m3[EB/OL].[2023-06-10].https://solarthermalworld.org/news/seasonal-pit-heat-storage-cost-benchmark-30-eurm3/.
[64] EUDP.A presentation of the Danish pit and borehole thermal energy storages in Brædstrup,Marstal,Dronninglund and Gram[EB/OL].[2023-06-10].https://www.energiforskning.dk/sites/energiforskning.dk/files/slutrapporter/sol_til_fjernvarme_brochure_oplag_2_til_web01-_0.pdf.
[65] 黄俊鹏,徐尤锦.欧洲太阳能区域供热的发展现状与趋势[J].建设科技,2016(23):63- 69.
[66] Romboll.Vojens fjernvarme[EB/OL].[2023-06-10].https://stateofgreen.com/en/solutions/world-largest-thermal-pit-storage-in-vojens/.
[67] Ramboll.Toftlund fjernvarme udvidelse solvarme project[EB/OL].[2023-06-15].https://stateofgreen.com/en/solution-providers/ramboll/.
[68] Pedersen MBS.Energilager tager form i toftlund[EB/OL].[2023-06-15].https://www.energy-supply.dk/article/view/341832/energilager_tager_form_i_toftlund.
[69] Asian Development Bank.Solar district heating in the People's Republic of China:status and development potential[EB/OL].[2023-06-15].https://www.amazon.com/dp/9292615203/ref=sr_1_1 keywords=9789292615208&qid=1564714827&s=gateway&sr=8-1#detailBullets_feature_div.
[70] LUNDH M,DALENBACK J O.Swedish solar heated residential area with seasonal storage in rock:initial evaluation[J].Renewable energy,2008,33(4):703- 711.
[71] RAD F M,FUNG A S.Solar community heating and cooling system with borehole thermal energy storage:review of systems[J].Renewable and sustainable energy reviews,2016,60:1550- 1561.
[72] Saisonalspeicher.de.Stadtwerke crailsheim[EB/OL].[2023-06-18].https://www.saisonalspeicher.de/home/projekte/projekte-in-deutschland/crailsheim/.
[73] MANGOLD D.Seasonal storage:a German success story[J].Sun & wind energy,2007,2007(1):48- 58.
[74] SIBBITT B,MCCLENAHAN D,DJEBBAR R,et al.Measured and simulated performance of a high solar fraction district heating system with seasonal storage[C/OL]//ISES Solar World Congress 2011,2011.[2023-06-20].https://proceedings.ises.org/paper/swc2011/swc2011-0263-Sibbitt.pdf.
[75] RILEY B.Okotoks:seasonal storage of solar energy for space heat in a new community[EB/OL].[2023-06-20].https://www.eceee.org/static/media/uploads/site-2/library/conference_proceedings/ACEEE_buildings/2006/Panel_11/p11_11/paper.pdf.
[76] NILSSON E,ROHDIN P.Performance evaluation of an industrial borehole thermal energy storage (BTES) project:experiences from the first seven years of operation[J].Renewable energy,2019,143:1022- 1034.
[77] SHIM B O.International case studies on the eco-friendly energy towns with hybrid thermal energy supply system and borehole thermal energy storage (BTES)[J].Economic and environmental geology,2018,51(1):67- 76.
[78] Saisonalspeicher.de.Braedstrup fjernvarme[EB/OL].[2023-06-25].https://www.saisonalspeicher.de/home/projekte/projekte-in-europa/braedstrup/.
[79] XU J,LI Y,WANG R Z,et al.Performance investigation of a solar heating system with underground seasonal energy storage for greenhouse application[J].Energy,2014,67:63- 73.
[80] LIZANA J,ORTIZ C,SOLTERO V M,et al.District heating systems based on low-carbon energy technologies in Mediterranean areas[J].Energy,2017,120:397- 416.
[81] GUO F,ZHU X Y,ZHANG J Y,et al.Large-scale living laboratory of seasonal borehole thermal energy storage system for urban district heating[J].Applied energy,2020,264:114763.
[82] RENALDI R,FRIEDRICH D.Techno-economic analysis of a solar district heating system with seasonal thermal storage in the UK[J].Applied energy,2019,236:388- 400.
[83] SCHMIDT T J,KABUS F,MÜLLER-STEINHAGEN H M.The central solar heating plant with aquifer thermal energy store in Rostock:results after four years of operation[C/OL]//Proceedings of Eurosun 2004,2004.[2023-06-22].https://docslib.org/doc/2051378/the-central-solar-heating-plant-with-aquifer-thermal-energy-store-in-rostock-results-after-four-years-of-operation.
[84] RUDOLPH H,ZHOU Y,SONG P,et al.Aquifer thermal energy storage in the Netherlands:a review[C/OL]//2018 International Conference on Power System Technology (POWERCON),2018.[2023-06-25].https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=8602211.
[85] BEHI R,MIRMOHAMMADI S A,SUMA A,et al.Optimized energy recovery in line with balancing of an ATES[C/OL]//ASME 2014 Power Conference,2014.[2023-07-02].https://research.tue.nl/en/publications/optimized-energy-recovery-in-line-with-balancing-of-an-ates.
[86] FLEUCHAUS P,SCHÜPPLER S,STEMMLE R,et al.Aquiferspeicher in Deutschland[J].Grundwasser,2021,26(2):123- 134.
[87] GHAEBI H,BAHADORI M N,SAIDI M H.Performance analysis and parametric study of thermal energy storage in an aquifer coupled with a heat pump and solar collectors,for a residential complex in Tehran,Iran[J].Applied thermal engineering,2014,62(1):156- 170.
[88] LARSEN H H,PETERSEN L S.DTU international energy report 2015:energy systems integration for the transition to non-fossil energy systems[R/OL].Denmark:Technical University of Denmark,2015.[2023-07-02].https://backend.orbit.dtu.dk/ws/portalfiles/portal/119583507/DTU_International_Energy_Report_2015_rev.pdf.
[89] IEA-SHC-Task52.Classification and benchmarking of solar thermal systems in urban environments[EB/OL].[2023-07-02].http://task52.iea-shc.org/data/ sites/1/ publications/ IEA- SHC- Task52- STC1- Classification-and-benchmarking-Report-2016-03-31.pdf.
[90] S∅RENSEN S V.全球存量最大的待开发能源:余热[EB/OL].[2023-07-10].https://mma.prnewswire.com/media/2032367/PDF.pdf.
[91] 中国绿发会大气治理与低碳发展工作委员会.PM2.5&CO2论坛为双碳背景下的大气治理献智献策[EB/OL].[2023-07-15].http://www.cbcgdf.org/NewsShow/4854/18326.html.
[92] 倪龙,董世豪,郑渊博,等.热泵技术在中低温热能生产中的减碳效益[J].暖通空调,2022,52(11):23- 34.
[93] HESARAKI A,HOLMBERG S,HAGHIGHAT F.Seasonal thermal energy storage with heat pumps and low temperatures in building projects:a comparative review[J].Renewable & sustainable energy reviews,2015,43:1199- 1213.
[94] XU J,WANG R Z,LI Y.A review of available technologies for seasonal thermal energy storage[J].Solar energy,2014,103:610- 638.
Development status and analysis of seasonal sensible thermal energy storage projects in new century
Abstract: The development of seasonal thermal energy storage technology is of great significance to realize the green and low-carbon transformation in China's heating field. This paper reviews the principle and classification of seasonal thermal energy storage, the development status at home and abroad, and project statistics and parameter analysis from the perspective of seasonal thermal energy storage projects. The typical techno-economic parameters, heat source and material analysis of the 44 domestic and foreign seasonal thermal energy storage projects are focused on. Finally, it is pointed out that the number of seasonal thermal energy storage projects and the scale of thermal energy storage are continuously expanding at home and abroad, and the development of large-capacity water pit thermal energy storage, the realization of multi-energy complementary heat source for seasonal thermal energy storage, the large-scale application of heat pumps, and the further development of new materials for seasonal thermal energy storage system may be an important direction for the future development of seasonal thermal energy storage.
Keywords: seasonal sensible thermal energy storage; water pit thermal energy storage; heat source of thermal energy storage; heat pump; techno-economic parameter; material;
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