孟翔宇，陈铭韵，顾阿伦，等．“双碳”目标下中国氢能发展战略[J]．天然气工业，2022,42(4):156-179.MENG X Y,CHEN M Y,GU A L,et al.China’s hydrogen development strategy in the context of double carbon targets[J].Natural Gas Industry,2022,42(4):156-179.(in Chinese)

倪耀琪，朱恒恺．“双碳”目标下氢能发展机遇、难点与路径选择[J]．现代化工，2024,44(2):1-8.NI Y Q,ZHU H K.Opportunities,difficulty and path choice for hydrogen energy development under“carbon dioxide emission peaking and carbon neutrality”goal[J].Modern Chemical Industry,2024,44(2):1-8.(in Chinese)

GARZ′ON BAQUERO J E,BELLON MONSALVE D.From fossil fuel energy to hydrogen energy:Transformation of fossil fuel energy economies into hydrogen economies through social entrepreneurship[J].International Journal of Hydrogen Energy,2024,54:574-585.

ZHANG W Y,FANG X M,SUN C W.The alternative path for fossil oil:Electric vehicles or hydrogen fuel cell vehicles?[J].Journal of Environmental Management,2023,341:118019.

胡兵，徐立军，何山，等．碳达峰与碳中和目标下PEM电解水制氢研究进展[J]．化工进展，2022,41(9):4595-4604.HU B,XU L J,HE S,et al.Researching progress of hydrogen production by PEM water electrolysis under the goal of carbon peak and carbon neutrality[J].Chemical Industry and Engineering Progress,2022,41(9):4595-4604.(in Chinese)

卢捷，于立军，郑培，等．风氢耦合系统超前控制策略研究[J]．太阳能学报，2022,43(3):53-60.LU J,YU L J,ZHENG P,et al.Research on advanced control strategy of wind hydrogen coupling system[J].Acta Energiae Solaris Sinica,2022,43(3):53-60.(in Chinese)

袁铁江，谭捷，万志．考虑下游氢负荷波动的新能源制氢系统协调控制策略[J]．电力系统自动化，2023,47(6):150-157.YUAN T J,TAN J,WAN Z.Coordinated control strategy of hydrogen producing system powered by renewable energy considering downstream hydrogen load fluctuations[J].Automation of Electric Power Systems,2023,47(6):150-157.(in Chinese)

袁铁江，郭建华，杨紫娟，等．平抑风电波动的电-氢混合储能容量优化配置[J]．中国电机工程学报，2024,44(4):1397-1406.YUAN T J,GUO J H,YANG Z J,et al.Optimal allocation of power electric-hydrogen hybrid energy storage of stabilizing wind power fluctuation[J].Proceedings of the CSEE,2024,44(4):1397-1406.(in Chinese)

丁历威，彭笑东，侯继彪，等．风光波动电源下质子交换膜电解水制氢技术发展与应用[J]．中国工程科学，2023,25(6):237-247.DING L W,PENG X D,HOU J B,et al.Hydrogen production by proton exchange membrane water electrolysis in the presence of wind-solar fluctuating power supply:Development and application[J].Strategic Study of CAE,2023,25(6):237-247.(in Chinese)

钱宇，陈耀熙，史晓斐，等．太阳能波动特性大数据分析与风光互补耦合制氢系统集成[J]．化工学报，2022,73(5):2101-2110.QIAN Y,CHEN Y X,SHI X F,et al.Big data analysis of solar energy fluctuation characteristics and integration of windphotovoltaic to hydrogen system[J].CIESC Journal,2022,73(5):2101-2110.(in Chinese)

CHENG G S,LUO E C,ZHAO Y,et al.Analysis and prediction of green hydrogen production potential by photovoltaic-powered water electrolysis using machine learning in China[J].Energy,2023,284:129302.

FEREIDOONI M,MOSTAFAEIPOUR A,KALANTAR V,et al.A comprehensive evaluation of hydrogen production from photovoltaic power station[J].Renewable and Sustainable Energy Reviews,2018,82:415-423.

ALI ABDELKAREEM M,ABDELGHAFAR A A,MAHMOUD M,et al.Optimized solar photovoltaic-powered green hydrogen:Current status,recent advancements,and barriers[J].Solar Energy,2023,265:112072.

NIBLETT D,DELPISHEH M,RAMAKRISHNAN S,et al.Review of next generation hydrogen production from offshore wind using water electrolysis[J].Journal of Power Sources,2024,592:233904.

RAMAKRISHNAN S,DELPISHEH M,CONVERY C,et al.Offshore green hydrogen production from wind energy:Critical review and perspective[J].Renewable and Sustainable Energy Reviews,2024,195:114320.

AWAD M,SAID A,SAAD M H,et al.A review of water electrolysis for green hydrogen generation considering PV/wind/hybrid/hydropower/geothermal/tidal and wave/biogas energy systems,economic analysis,and its application[J].Alexandria Engineering Journal,2024,87:213-239.

梁波，崔磊，刘亚青，等．水电氢能发展理念与关键技术研究[J]．人民长江，2022,53(2):158-163.LIANG B,CUI L,LIU Y Q,et al.Development concept and key technology of hydropower hydrogen energy[J].Yangtze River,2022,53(2):158-163.(in Chinese)

巫若蓝，刘辉，覃日升．考虑梯级水电站弃水制氢的水火电短期调度[J]．电力系统及其自动化学报，2020,32(9):1-9.WU R L,LIU H,QIN R S.Short-term scheduling of hydro-thermal power considering hydrogen production from water spillage of cascaded hydropower stations[J].Proceedings of the CSU-EPSA,2020,32(9):1-9.(in Chinese)

KALPPANA C,HANAFIAHMARLIA M,SINW K,et al.A review on the environmental performance of various hydrogen production technologies:An approach towards hydrogen economy[J].Energy Reports,2024,11:369-383.

孟翔宇，顾阿伦，曾静，等．中国氢能交通产业的现状、挑战与展望[J]．科技导报，2024,42(3):6-26.MENG X Y,GU A L,ZENG J,et al.Status quo,challenges,and prospects of China’s hydrogen transportation industry[J].Science&Technology Review,2024,42(3):6-26.(in Chinese)

宋磊，陆春光．氢能在交通领域的应用及发展趋势分析[J]．环境工程，2023,41(7):334.SONG L,LU C G.Application and development trend analysis of hydrogen energy in transportation field[J].Environmental Engineering,2023,41(7):334.(in Chinese)

MARTIN J,NEUMANN A，?DEG?ARD A.Renewable hydrogen and synthetic fuels versus fossil fuels for trucking,shipping and aviation:A holistic cost model[J].Renewable and Sustainable Energy Reviews,2023,186:113637.

王娇，张擘，齐洪峰，等．我国氢能源列车发展研究[J]．铁道运输与经济，2023,45(9):162-168.WANG J,ZHANG B,QI H F,et al.Research on development of hydrogen trains in China[J].Railway Transport and Economy,2023,45(9):162-168.(in Chinese)

陈维荣，王颖民，李秉训，等．氢能轨道交通的研究现状与发展趋势[J]．机车电传动，2023(3):1-11.CHEN W R,WANG Y M,LI B X,et al.Overview on current research status and development trends of hydrogen-powered rail transit[J].Electric Drive for Locomotives,2023(3):1-11.(in Chinese)

王东兴，王哲，赵帆，等．氢燃料电池动力船舶技术标准现状分析与发展展望[J]．交通信息与安全，2023,41(2):157-167+178.WANG D X,WANG Z,ZHAO F,et al.State-of-the-art and prospect of technical standards for the ships powered by hydrogen fuel cells[J].Journal of Transport Information and Safety,2023,41(2):157-167+178.(in Chinese)

向巧，胡晓煜，王曼，等．关于氢能航空动力发展的认识与思考[J]．航空发动机，2024,50(1):1-9.XIANG Q,HU X Y,WANG M,et al.Observations on the development of hydrogen-powered aircraft propulsion system[J].Aeroengine,2024,50(1):1-9.(in Chinese)

段辰龙，徐悦，王天波，等．氢燃料电池飞机可行性与发展需求研究[J]．飞行力学，2023,41(6):82-88.DUAN C L,XU Y,WANG T B,et al.Research on feasibility and development demand of hydrogen fuel cell aircraft[J].Flight Dynamics,2023,41(6):82-88.(in Chinese)

庄诗韵，陈玉保，张旭，等．热解油加氢催化制航空燃料工艺及响应面优化[J]．太阳能学报，2021,42(10):311-316.ZHUANG S Y,CHEN Y B,ZHANG X,et al.Optimization of process conditions and response surface on catalytic hydro treatment of pyrolysis oil for producing aviation fuel[J].Acta Energiae Solaris Sinica,2021,42(10):311-316.(in Chinese)

LI F,CHU M S,TANG J,et al.Quantifying the energy saving potential and environmental benefit of hydrogen-based steelmaking process:Status and future prospect[J].Applied Thermal Engineering,2022,211:118489.

XU S,WANG X Y,JIANG Y Q,et al.Optimum investment strategy for hydrogen-based steelmaking project coupled with multiple uncertainties[J].Journal of Environmental Management,2024,356:120484.

LI C Z,ZHANG L B,WANG Q W,et al.Towards low-carbon steel:System dynamics simulation of policies impact on green hydrogen steelmaking in China and the European Union[J].Energy Policy,2024,188:114073.

REYES-BOZO L,SALAZAR J L,VALD′ES-GONZ′ALEZ H,et al.Viability analysis for use of methane obtained from green hydrogen as a reducing agent in copper smelters[J].Results in Engineering,2021,12:100286.

邹才能，李建明，张茜，等．氢能工业现状、技术进展、挑战及前景[J]．天然气工业，2022,42(4):1-20.ZOU C N,LI J M,ZHANG X,et al.Industrial status,technological progress,challenges and prospects of hydrogen energy[J].Natural Gas Industry,2022,42(4):1-20.(in Chinese)

徐立军．氢能生产与利用技术[M]．长春：吉林科学技术出版社，2022.XU L J.Hydrogen energy production and utilization technology[M].Changchun:Jilin Science&Technology Press,2022.(in Chinese)

MASSARWEH O,AL-KHUZAEI M,AL-SHAFI M,et al.Blue hydrogen production from natural gas reservoirs:A review of application and feasibility[J].Journal of CO2Utilization,2023,70:102438.

PRATO-GARCIA D,ROBAYO-AVENDA NO A,VASQUEZ-MEDRANO R.Hydrogen from natural gas and biogas:Building bridges for a sustainable transition to a green economy[J].Gas Science and Engineering,2023,111:204918.

MURADOV N.Hydrogen via methane decomposition:An application for decarbonization of fossil fuels[J].International Journal of Hydrogen Energy,2001,26(11):1165-1175.

MIDILLI A,KUCUK H,TOPAL M E,et al.A comprehensive review on hydrogen production from coal gasification:Challenges and Opportunities[J].International Journal of Hydrogen Energy,2021,46(50):25385-25412.

JIANG L L,XUE D,WEI Z X,et al.Coal decarbonization:A state-of-the-art review of enhanced hydrogen production in underground coal gasification[J].Energy Reviews,2022,1(1):100004.

谢继东，李文华，陈亚飞．煤气化制氢新技术的探讨[J]．现代化工，2007,27(S1):335-336+338.XIE J D,LI W H,CHEN Y F.Discussion of new technology for hydrogen production from coal gasification[J].Modern Chemical Industry,2007,27(S1):335-336+338.(in Chinese)

EMAM A S,HAMDAN M O,ABU-NABAH B A,et al.A review on recent trends,challenges,and innovations in alkaline water electrolysis[J].International Journal of Hydrogen Energy,2024,64:599-625.

ZOU Z H,DASTAFKAN K,SHAO Y,et al.Electrocatalysts for alkaline water electrolysis at ampere-level current densities:A review[J].International Journal of Hydrogen Energy,2024,51:667-684.

DAOUDI C,BOUNAHMIDI T.Overview of alkaline water electrolysis modeling[J].International Journal of Hydrogen Energy,2024,49:646-667.

MAKHSOOS A,KANDIDAYENI M,POLLET B G,et al.A perspective on increasing the efficiency of proton exchange membrane water electrolyzers:A review[J].International Journal of Hydrogen Energy,2023,48(41):15341-15370.

SHIRVANIAN P,VAN BERKEL F.Novel components in Proton Exchange Membrane(PEM)Water Electrolyzers(PEMWE):Status,challenges and future needs.A mini review[J].Electrochemistry Communications,2020,114:106704.

GUAN X P,BAI J H,ZHANG J C,et al.Multiphase flow in PEM water electrolyzers:A mini-review[J].Current Opinion in Chemical Engineering,2024,43:100988.

NI M,LEUNG M K H,LEUNG D Y C.Technological development of hydrogen production by solid oxide electrolyzer cell(SOEC)[J].International Journal of Hydrogen Energy,2008,33(9):2337-2354.

LAHRICHI A,EL ISSMAELI Y,KALANUR S S,et al.Advancements,strategies,and prospects of solid oxide electrolysis cells(SOECs):Towards enhanced performance and large-scale sustainable hydrogen production[J].Journal of Energy Chemistry,2024,94:688-715.

JOLAOSO L A,BELLO I T,OJELADE O A,et al.Operational and scaling-up barriers of SOEC and mitigation strategies to boost H2production:A comprehensive review[J].International Journal of Hydrogen Energy,2023,48(85):33017-33041.

HANIF M B,RAUF S,ABADEEN Z U,et al.Proton-conducting solid oxide electrolysis cells:Relationship of compositionstructure-property,their challenges,and prospects[J].Matter,2023,6(6):1782-1830.

WANG Y J,WANG M,YANG Y Q,et al.Potential technology for seawater electrolysis:Anion-exchange membrane water electrolysis[J].Chem Catalysis,2023,3(7):100643.

LIU C,GENG Z,WANG X K,et al.Development of advanced anion exchange membrane from the view of the performance of water electrolysis cell[J].Journal of Energy Chemistry,2024,90:348-369.

PALMAS S,RODRIGUEZ J,MAIS L,et al.Anion exchange membrane:A valuable perspective in emerging technologies of low temperature water electrolysis[J].Current Opinion in Electrochemistry,2023,37:101178.

王迪，李芳芹，潘卫国，等．光催化制氢催化剂研究进展[J]．应用化工，2024,53(1):228-232+237.WANG D,LI F Q,PAN W G,et al.Research progress of photocatalytic catalysts for hydrogen production[J].Applied Chemical Industry,2024,53(1):228-232+237.(in Chinese)

刘飞，方柏山．微生物产氢机理的研究进展[J]．工业微生物，2007,37(3):58-62.LIU F,FANG B S.Research advance in biohydrogen mechanism[J].Industrial Microbiology,2007,37(3):58-62.(in Chinese)

陈小粉，柳娴，李小明，等．微生物电解产氢新技术研究现状与进展[J]．环境科学与技术，2010,33(9):82-86.CHEN X F,LIU X,LI X M,et al.Current status and prospects in hydrogen production with microbial electrolysis cells[J].Environmental Science&Technology,2010,33(9):82-86.(in Chinese)

袁园，张旭，李兵峰．利用典型工业副产气制氢的技术方案的生命周期影响评价[J]．环境污染与防治，2009,31(6):81-83.YUAN Y,ZHANG X,LI B F.The life cycle analysis on typical technical route of purifying hydrogen from by-product gas[J].Environmental Pollution&Control,2009,31(6):81-83.(in Chinese)

曹军文，张文强，李一枫，等．中国制氢技术的发展现状[J]．化学进展，2021,33(12):2215-2244.CAO J W,ZHANG W Q,LI Y F,et al.Current status of hydrogen production in China[J].Progress in Chemistry,2021,33(12):2215-2244.(in Chinese)

陈健，姬存民，卜令兵．碳中和背景下工业副产气制氢技术研究与应用[J]．化工进展，2022,41(3):1479-1486.CHEN J,JI C M,BU L B.Research and application of hydrogen production technology from industrial by-product gas under the background of carbon neutrality[J].Chemical Industry and Engineering Progress,2022,41(3):1479-1486.(in Chinese)

田金光．炼化企业氢气资源优化综合利用[J]．石油炼制与化工，2021,52(6):108-111.TIAN J G.Optimization and comprehensive utilization of hydrogen resources in petrochemical enteprise[J].Petroleum Processing and Petrochemicals,2021,52(6):108-111.(in Chinese)

周树辉，王秀林，段品佳，等．高压气态储氢技术形势分析[J]．储能科学与技术，2023,12(8):2668-2679.ZHOU S H,WANG X L,DUAN P J,et al.Analysis of high-pressure gaseous hydrogen storage technology[J].Energy Storage Science and Technology,2023,12(8):2668-2679.(in Chinese)

刘翠伟，裴业斌，韩辉，等．氢能产业链及储运技术研究现状与发展趋势[J]．油气储运，2022,41(5):498-514.LIU C W,PEI Y B,HAN H,et al.Research status and development trend of hydrogen energy industry chain and the storage and transportation technologies[J].Oil&Gas Storage and Transportation,2022,41(5):498-514.(in Chinese)

李建，张立新，李瑞懿，等．高压储氢容器研究进展[J]．储能科学与技术，2021,10(5):1835-1844.LI J,ZHANG L X,LI R Y,et al.High-pressure gaseous hydrogen storage vessels:Current status and prospects[J].Energy Storage Science and Technology,2021,10(5):1835-1844.(in Chinese)

王鑫，陈叔平，朱鸣．液氢储运技术发展现状与展望[J]．太阳能学报，2024,45(1):500-514.WANG X,CHEN S P,ZHU M.Development status and prospect of liquid hydrogen storage and transportation technology[J].Acta Energiae Solaris Sinica,2024,45(1):500-514.(in Chinese)

邵艳波，宋义伟，张志贵，等．氢气低温液化与储运技术进展[J]．低温与超导，2023,51(6):55-61.SHAO Y B,SONG Y W,ZHANG Z G,et al.Research progress on liquefaction storage and transportation technologies of hydrogen[J].Cryogenics&Superconductivity,2023,51(6):55-61.(in Chinese)

饶永超，胡勇，王树立，等．液氢储运技术发展现状及存在问题[J]．现代化工，2023,43(6):6-11.RAO Y C,HU Y,WANG S L,et al.Development status and existing problems of liquid hydrogen storage and transportation technologies[J].Modern Chemical Industry,2023,43(6):6-11.(in Chinese)

林文胜，刘洪茹，许婧煊．液氢和液态有机氢载体的氢运输链能效及碳排放[J]．天然气工业，2023,43(2):131-138.LIN W S,LIU H R,XU J X.Energy efficiency and carbon emission of hydrogen transportation chain in the mode of liquid hydrogen and liquid organic hydrogen carrier[J].Natural Gas Industry,2023,43(2):131-138.(in Chinese)

张慧敏，田磊，孙云峰，等．有机液体储氢研究进展及管道运输的思考[J]．油气储运，2023,42(4):375-390.ZHANG H M,TIAN L,SUN Y F,et al.Progress of research on hydrogen storage in organic liquid and thinking about pipeline transportation[J].Oil&Gas Storage and Transportation,2023,42(4):375-390.(in Chinese)

薛景文，于鹏飞，张彦康，等．液态有机氢载体储氢系统脱氢反应器研究进展[J]．热力发电，2022,51(11):1-10.XUE J W,YU P F,ZHANG Y K,et al.Review on advances of dehydrogenation reactor for hydrogen storage system using liquid organic hydrogen carrier[J].Thermal Power Generation,2022,51(11):1-10.(in Chinese)

高勇，陈慧，刘锋，等．有机液体储氢技术中催化剂应用的研究进展[J]．贵金属，2023,44(1):86-91.GAO Y,CHEN H,LIU F,et al.Research progress in the application of catalysts for liquid organic hydrogen carrier technology[J].Precious Metals,2023,44(1):86-91.(in Chinese)

王明华．氢能储运技术经济性分析及建立绿氨储运基地设想[J]．现代化工，2023,43(6):1-5.WANG M H.Economic analysis on hydrogen energy storage and transportation technologies and tentative plan in establishing a green ammonia storage-transportation base[J].Modern Chemical Industry,2023,43(6):1-5.(in Chinese)

李海波．固态储氢技术现状与发展趋势分析[J]．现代化工，2024,44(4):13-18.LI H B.Development trend and present status of solid-state hydrogen storage technology[J].Modern Chemical Industry,2024,44(4):13-18.(in Chinese)

张秋雨，任莉，李映辉，等．镁基固态储氢材料研究进展[J]．科技导报，2022,40(23):6-23.ZHANG Q Y,REN L,LI Y H,et al.Solid state Mg-based hydrogen storage materials:Research progress and future perspective[J].Science&Technology Review,2022,40(23):6-23.(in Chinese)

孙宁，马凡华．氢内燃机的发展现状和动向[J]．车用发动机，2006(2):1-5.SUN N,MA F H.Developing situation and direction of hydrogen internal combustion engine[J].Vehicle Engine,2006(2):1-5.(in Chinese)

马凡华，刘海全，李勇，等．氢内燃机缸内燃烧特性[J]．内燃机工程，2008,29(1):29-33.MA F H,LIU H Q,LI Y,et al.Analysis of in-cylinder combustion of hydrogen fueled engine[J].Chinese Internal Combustion Engine Engineering,2008,29(1):29-33.(in Chinese)

段俊法，唐建鹏，张宇，等．燃烧方式对氢内燃机燃烧和排放的影响研究[J]．车用发动机，2018(5):82-86.DUAN J F,TANG J P,ZHANG Y,et al.Effect of different combustion modes on combustion and emission characteristics of hydrogen internal combustion engine[J].Vehicle Engine,2018(5):82-86.(in Chinese)

周子阳，杜玮，王星显，等．空间氢氧燃料电池技术发展现状与趋势分析[J]．电源技术，2024,48(3):445-453.ZHOU Z Y,DU W,WANG X X,et al.Space hydrogen-oxygen fuel cell power system development status and trend analysis[J].Chinese Journal of Power Sources,2024,48(3):445-453.(in Chinese)

姚彬，王丽莉，张国辉．氢燃料电池用于发电技术的研究现状[J]．应用化工，2023,52(12):3466-3468+3474.YAO B,WANG L L,ZHANG G H.Research progress of hydrogen fuel cell for power generation[J].Applied Chemical Industry,2023,52(12):3466-3468+3474.(in Chinese)

殷卓成，王贺，段文益，等．氢燃料电池汽车关键技术研究现状与前景分析[J]．现代化工，2022,42(10):18-23.YIN Z C,WANG H,DUAN W Y,et al.Research status and prospect of key technologies for hydrogen fuel cell vehicle[J].Modern Chemical Industry,2022,42(10):18-23.(in Chinese)

刘翠伟，洪伟民，王多才，等．地下储氢技术研究进展[J]．油气储运，2023,42(8):841-855.LIU C W,HONG W M,WANG D C,et al.Research progress of underground hydrogen storage technology[J].Oil&Gas Storage and Transportation,2023,42(8):841-855.(in Chinese)

方琰藜，侯正猛，岳也，等．一种应用于氢能产业一体化的新型多功能盐穴储氢库[J]．工程科学与技术，2022,54(1):128-135.FANG Y L,HOU Z M,YUE Y,et al.A new concept of multifunctional salt cavern hydrogen storage applied to the integration of hydrogen energy industry[J].Advanced Engineering Sciences,2022,54(1):128-135.(in Chinese)

杨春和，王贵宾，施锡林，等．中国大规模盐穴储氢需求与挑战[J]．岩土力学，2024,45(1):1-19.YANG C H,WANG G B,SHI X L,et al.Demands and challenges of large-scale salt cavern hydrogen storage in China[J].Rock and Soil Mechanics,2024,45(1):1-19.(in Chinese)

陈科宇，徐金鑫，吴桂波，等．绿氨产业现状及发展展望[J]．化工进展，2024,43(5):2544-2553.CHEN K Y,XU J X,WU G B,et al.Current situation and development prospect of green ammonia industry[J].Chemical Industry and Engineering Progress,2024,43(5):2544-2553.(in Chinese)

赵晓东，文婕，于明伟，等．氨能源技术的开发及前景展望[J]．现代化工，2023,43(4):50-53+59.ZHAO X D,WEN J,YU M W,et al.Development and prospect of ammonia energy technology[J].Modern Chemical Industry,2023,43(4):50-53+59.(in Chinese)

王志永，李刚，张航飞，等．我国中低温煤焦油加氢制备燃料油研究进展[J]．当代石油石化，2014,22(6):14-18.WANG Z Y,LI G,ZHANG H F,et al.The progress in preparation of fuel oil from coal tar by catalytic hydrogenation in China[J].Petroleum&Petrochemical Today,2014,22(6):14-18.(in Chinese)

范宏，于伟南，柳璐，等．双碳目标下考虑电氢互补的智慧园区多楼宇协调调度[J]．电力系统自动化，2022,46(21):42-51.FAN H,YU W N,LIU L,et al.Multi-building coordinated dispatch in smart park for carbon emission peak and carbon neutrality considering electricity and hydrogen complementary[J].Automation of Electric Power Systems,2022,46(21):42-51.(in Chinese)

孔令国，王士博，蔡国伟，等．零能耗建筑电-氢-热双层能量优化调控方法[J]．中国电机工程学报，2022,42(17):6196-6208.KONG L G,WANG S B,CAI G W,et al.Zero energy building electricity-hydrogen-heat double-layer energy optimization control method[J].Proceedings of the CSEE,2022,42(17):6196-6208.(in Chinese)

高力强，费若雯，刘敏，等．含有氢能汽车和储能的新型光伏建筑能源系统建模[J]．西安建筑科技大学学报(自然科学版)，2022,54(3):414-422.GAO L Q,FEI R W,LIU M,et al.Modelling of a novel photovoltaics building energy system considering hydrogen vehicles and energy storage[J].Journal of Xi’an University of Architecture&Technology(Natural Science Edition),2022,54(3):414-422.(in Chinese)

范宏，王兰坤，邢梦晴，等．考虑频率稳定约束的电-氢互补多楼宇协调优化调度[J]．上海交通大学学报，2023,57(12):1559-1570.FAN H,WANG L K,XING M Q,et al.Coordinated scheduling of multiple buildings with electric-hydrogen complementary considering frequency stability constraints[J].Journal of Shanghai Jiao Tong University,2023,57(12):1559-1570.(in Chinese)

TURNER J,SVERDRUP G,MANN M K,et al.Renewable hydrogen production[J].International Journal of Energy Research,2008,32(5):379-407.

MILTNER A,WUKOVITS W,PR¨OLL T,et al.Renewable hydrogen production:A technical evaluation based on process simulation[J].Journal of Cleaner Production,2010,18:S51-S62.

HONNERY D,MORIARTY P.Estimating global hydrogen production from wind[J].International Journal of Hydrogen Energy,2009,34(2):727-736.

PEREZ R J.Analysis of the levelized cost of green hydrogen production for very heavy vehicles in New Zealand[D].Wellington:Waka-Victoria University of Wellington,2020.

GLENK G,REICHELSTEIN S.Economics of converting renewable power to hydrogen[J].Nature Energy,2019,4:216-222.

BAREI?K,DELA RUA C,M¨OCKL M,et al.Life cycle assessment of hydrogen from proton exchange membrane water electrolysis in future energy systems[J].Applied Energy,2019,237:862-872.

SCHMIDT O,GAMBHIR A,STAFFELL I,et al.Future cost and performance of water electrolysis:An expert elicitation study[J].International Journal of Hydrogen Energy,2017,42(52):30470-30492.

LANE B,REED J,SHAFFER B,et al.Forecasting renewable hydrogen production technology shares under cost uncertainty[J].International Journal of Hydrogen Energy,2021,46(54):27293-27306.

OCHOA BIQUE A,ZONDERVAN E.An outlook towards hydrogen supply chain networks in 2050:Design of novel fuel infrastructures in Germany[J].Chemical Engineering Research and Design,2018,134:90-103.

ROBINIUS M,OTTO A,SYRANIDIS K,et al.Linking the power and transport sectors-Part 2:Modelling a sector coupling scenario for Germany[J].Energies,2017,10(7):957.

TLILI O,MANSILLA C,LINBEN J,et al.Geospatial modelling of the hydrogen infrastructure in France in order to identify the most suited supply chains[J].International Journal of Hydrogen Energy,2020,45(4):3053-3072.

SAMSATLI S,STAFFELL I,SAMSATLI N J.Optimal design and operation of integrated wind-hydrogen-electricity networks for decarbonising the domestic transport sector in Great Britain[J].International Journal of Hydrogen Energy,2016,41(1):447-475.

LUND H.Renewable energy strategies for sustainable development[J].Energy,2007,32(6):912-919.

WON W,KWON H,HAN J H,et al.Design and operation of renewable energy sources based hydrogen supply system:Technology integration and optimization[J].Renewable Energy,2017,103:226-238.

KOTESWARARAO K V,NAGASRINIVASULU G.Modeling,downsizing,and performance comparison of a fuel cell hybrid mid-size car with FCEV for urban and hill road driving cycles[J].International Journal of Green Energy,2019,16(2):115-124.

AHMADI P,KJEANG E.Realistic simulation of fuel economy and life cycle metrics for hydrogen fuel cell vehicles[J].International Journal of Energy Research,2017,41(5):714-727.

K¨OK C,MERT S O.Energetic and exergetic performance investigation of different topologies for hybrid fuel cell vehicles[J].International Journal of Energy Research,2023,2023:7165382.

TAKAHASHI Y.Simple optimum energy management control system for small fuel cell vehicle regarding remaining hydrogen and distance to destination[C]//2017 IEEE Vehicle Power and Propulsion Conference(VPPC).Belfort,France.IEEE,2017:1-5.

STOLL T,KULZER A,BERNER H J.A plug-in hybrid electric vehicle concept with fuel cell range extender for urban delivery transport-vehicle application[C]//SAE Technical Paper Series.Detroit,Michigan,USA.400 Commonwealth Drive,Warrendale,PA,United States:SAE International,2023:1-491.

ABADLIA I,HASSAINE L,BEDDAR A,et al.Adaptive fuzzy control with an optimization by using genetic algorithms for grid connected a hybrid photovoltaic-hydrogen generation system[J].International Journal of Hydrogen Energy,2020,45(43):22589-22599.

DASH V,BAJPAI P.Power management control strategy for a stand-alone solar photovoltaic-fuel cell-battery hybrid system[J].Sustainable Energy Technologies and Assessments,2015,9:68-80.

STEWART E M,LUTZ A E,SCHOENUNG S,et al.Modeling,analysis and control system development for the Italian hydrogen house[J].International Journal of Hydrogen Energy,2009,34(4):1638-1646.

AL-SUBAIE A,MAROUFMASHAT A,ELKAMEL A,et al.Presenting the implementation of power-to-gas to an oil refinery as a way to reduce carbon intensity of petroleum fuels[J].International Journal of Hydrogen Energy,2017,42(30):19376-19388.

ANDRESEN L,BODE C,SCHMITZ G.Dynamic simulation of different transport options of renewable hydrogen to a refinery in a coupled energy system approach[J].International Journal of Hydrogen Energy,2018,43(42):19600-19614.

陈磊磊，年珩，赵建勇，等．含多电解槽的新能源制氢能量管理优化[J]．电力工程技术，2024,43(2):2-10.CHEN L L,NIAN H,ZHAO J Y,et al.Energy management optimization of new energy hydrogen production system including multi-electrolyzers[J].Electric Power Engineering Technology,2024,43(2):2-10.(in Chinese)

徐立军，王维庆，段友莲，等．用DC/DC变换器进行光伏直接耦合制氢的优化方法[J]．电源技术，2018,42(11):1668-1671.XU L J,WANG W Q,DUAN Y L,et al.Optimized method of photovoltaic generator-water electrolyser direct coupling through DC/DC converter[J].Chinese Journal of Power Sources,2018,42(11):1668-1671.(in Chinese)

邵文权，王猛，吴朝俊，等．基于改进滑模控制的光伏系统MPPT控制策略[J]．太阳能学报，2021,42(10):87-93.SHAO W Q,WANG M,WU C J,et al.MPPT control strategy based on improved sliding mode control for photovoltaic power system[J].Acta Energiae Solaris Sinica,2021,42(10):87-93.(in Chinese)

花赟昊，朱武，靳一奇，等．基于自适应变异粒子群算法的光伏MPPT控制研究[J]．太阳能学报，2022,43(4):219-225.HUA Y H,ZHU W,JIN Y Q,et al.Research on photovoltaic MPPT control based on adaptive mutation particle swarm optimization algorithm[J].Acta Energiae Solaris Sinica,2022,43(4):219-225.(in Chinese)

葛传九，武鹏，董祥祥，等．基于布谷鸟算法的光伏MPPT改进[J]．太阳能学报，2022,43(10):59-64.GE C J,WU P,DONG X X,et al.Improved photovoltaic maximum power point tracking based on cuckoo search algorithm[J].Acta Energiae Solaris Sinica,2022,43(10):59-64.(in Chinese)

李艳波，李林宜，刘维宇，等．基于TSO-MSMA算法在光伏系统MPPT中的研究[J]．太阳能学报，2023,44(8):324-330.LI Y B,LI L Y,LIU W Y,et al.Research on photovoltaic system MPPT based on TSO-MSMA algorithm[J].Acta Energiae Solaris Sinica,2023,44(8):324-330.(in Chinese)

詹合林，朱冰冰，岳增柱，等．车用70 MPa压缩氢气铝内胆碳纤维全缠绕气瓶的应力分析[J]．现代制造工程，2018(12):114-118.ZHAN H L,ZHU B B,YUE Z Z,et al.The stress analysis of the fully-wrapped carbon fiber reinforced cylinders with an aluminum liner for the on-board storage of compressed hydrogen as a fuel for land vehicle with nominal working pressure of 70MPa[J].Modern Manufacturing Engineering,2018(12):114-118.(in Chinese)

周池楼，陈国华．O型橡胶密封圈高压氢气环境中特性表征[J]．化工学报，2018,69(8):3557-3564.ZHOU C L,CHEN G H.Characterization of rubber O-ring seal in high-pressure gaseous hydrogen[J].CIESC Journal,2018,69(8):3557-3564.(in Chinese)

王新跟，沈昱明．高压氢气压缩因子计算模型研究[J]．石油与天然气化工，2022,51(4):38-42+50.WANG X G,SHEN Y M.Research on computational models of high-pressure hydrogen compression factor[J].Chemical Engineering of Oil&Gas,2022,51(4):38-42+50.(in Chinese)

朱宇豪，卜玉，刘瑞敏，等．车载液氢瓶瓶内自增压过程热力耦合特性研究[J]．低温工程，2023(5):61-68.ZHU Y H,BU Y,LIU R M,et al.Study of thermodynamic coupling characteristics in self-pressurization process within liquid hydrogen tank for vehicles[J].Cryogenics,2023(5):61-68.(in Chinese)

牛帅帅，赵杰，李敬法，等．液氢低温输送管道环空绝热技术研究进展[J]．油气储运，2024,43(4):373-386.NIU S S,ZHAO J,LI J F,et al.Research progress of annulus insulation technology for cryogenic liquid hydrogen pipelines[J].Oil&Gas Storage and Transportation,2024,43(4):373-386.(in Chinese)

张健，杨康，史圣权．晃动条件下大型液氢舱罐的动力学及热力学特性[J]．船舶工程，2024,46(2):47-55+63.ZHANG J,YANG K,SHI S Q.Dynamics and thermodynamic response of large liquid hydrogen tanks under shaking conditions[J].Ship Engineering,2024,46(2):47-55+63.(in Chinese)

王雪杰，崔国庆，王文涵，等．电内加热Pt/NPC催化剂高效催化甲基环己烷脱氢反应研究[J]．化工学报，2024,75(1):292-301.WANG X J,CUI G Q,WANG W H,et al.Study on highly efficient methylcyclohexane dehydrogenation over Pt/NPC catalysts by internal electric heating[J].CIESC Journal,2024,75(1):292-301.(in Chinese)

索娇，陈琳，赵贯甲，等．NiTi+催化甲基环己烷脱氢的密度泛函理论研究[J]．原子与分子物理学报，2024,41(5):7-14.SUO J,CHEN L,ZHAO G J,et al.Density functional theory study on NiTi+catalytic dehydrogenation of methylcyclohexane[J].Journal of Atomic and Molecular Physics,2024,41(5):7-14.(in Chinese)

丁朝，李宇庭，侯全会，等．金属有机骨架材料在镁基储氢材料中的应用[J]．稀有金属，2023,47(12):1603-1613.DING Z,LI Y T,HOU Q H,et al.Application of metal-organic frameworks on magnesium-based hydrogen storage materials[J].Chinese Journal of Rare Metals,2023,47(12):1603-1613.(in Chinese)

李谦，孙璇，罗群，等．镁基材料中储氢相及其界面与储氢性能的调控[J]．金属学报，2023,59(3):349-370.LI Q,SUN X,LUO Q,et al.Regulation of hydrogen storage phase and its interface in magnesium-based materials for hydrogen storage performance[J].Acta Metallurgica Sinica,2023,59(3):349-370.(in Chinese)

李英杰，姚继伟，雍辉，等．稀土掺杂对稀土-镁基合金储氢性能的影响[J]．材料导报，2022,36(20):187-194.LI Y J,YAO J W,YONG H,et al.Effect of rare earth doping on hydrogen storage properties of RE-Mg based hydrogen storage alloys[J].Materials Reports,2022,36(20):187-194.(in Chinese)

刘玮，王东，贾飞，等．氢能重载列车加氢站工艺优化研究[J]．现代化工，2024,44(6):204-208+212.LIU W,WANG D,JIA F,et al.Process optimization of hydrogen refueling station for hydrogen-powered heavy-duty trains[J].Modern Chemical Industry,2024,44(6):204-208+212.(in Chinese)

王莹，李汉勇，姜雨欣，等．基于低损耗热压缩的新型液氢加氢站工艺系统构建[J]．低温工程，2024(2):15-21.WANG Y,LI H Y,JIANG Y X,et al.Construction of a new liquid hydrogen refueling station process system based on low-loss thermal compression[J].Cryogenics,2024(2):15-21.(in Chinese)

何太碧，赵莉，王晓东，等．车用加氢站火灾爆炸事故风险分析[J]．石油与天然气化工，2024,53(2):131-138.HE T B,ZHAO L,WANG X D,et al.Risk analysis of fire and explosion accidents in vehicle hydrogen refueling stations[J].Chemical Engineering of Oil&Gas,2024,53(2):131-138.(in Chinese)

孙若凡，蒲亮，何永琛，等．加氢站高压低温氢气泄漏扩散数值研究[J]．低温工程，2024(1):38-44+57.SUN R F,PU L,HE Y C,et al.Numerical study of high-pressure cryogenic hydrogen leakage and diffusion in hydrogen refueling stations[J].Cryogenics,2024(1):38-44+57.(in Chinese)

黄志鸿，周利，柴士阳，等．耦合加氢装置优化的多周期氢网络集成[J]．化工学报，2024,75(5):1951-1965.HUANG Z H,ZHOU L,CHAI S Y,et al.Integrating optimization of hydrogenation units in multi-period hydrogen network[J].CIESC Journal,2024,75(5):1951-1965.(in Chinese)

汪培桢，杨升．氢能有轨电车应用综述[J]．装备制造技术，2020(2):196-199.WANG P Z,YANG S.Overview of hydrogen power tram applications[J].Equipment Manufacturing Technology,2020(2):196-199.(in Chinese)

ZHOU J M,FENG C X,SU Q Q,et al.The multi-objective optimization of powertrain design and energy management strategy for fuel cell-battery electric vehicle[J].Sustainability,2022,14(10):6320.

刘振．燃料电池电动汽车能量控制策略及性能仿真[D]．西安：长安大学，2022.LIU Z.Energy control strategy and performance simulation of fuel cell electric vehicles[D].Xi’an:Chang’an University,2022.(in Chinese)

杜祥琬，黄其励，李俊峰，等．我国可再生能源战略地位和发展路线图研究[J]．中国工程科学，2009,11(8):4-9+51.DU X W,HUANG Q L,LI J F,et al.Research on the strategic status and development road map of renewable energy in China[J].Engineering Sciences,2009,11(8):4-9+51.(in Chinese)

张保华．环保视角下氢能产业发展研究[J]．环境科学与管理，2024,49(3):62-65.ZHANG B H.Research on development of hydrogen energy industry from perspective of environmental protection[J].Environmental Science and Management,2024,49(3):62-65.(in Chinese)

王明华．国内氢能应用场景分析及发展前景预测[J]．石油炼制与化工，2023,54(9):18-23.WANG M H.Application scenarios analysis and development prospect prediction of domestic hydrogen energy[J].Petroleum Processing and Petrochemicals,2023,54(9):18-23.(in Chinese)

詹阔．“双碳”背景下我国氢能产业发展现状综述[J]．铁路采购与物流，2023,18(7):37-39.ZHAN K.Overview of development status of hydrogen energy industry in China under the background of carbon peak and carbon neutrality[J].Railway Purchasing and Logistics,2023,18(7):37-39.(in Chinese)

曾升，李进，王鑫，等．中国氢能利用技术进展及前景展望[J]．电源技术，2022,46(7):716-722.ZENG S,LI J,WANG X,et al.Progress and prospect of hydrogen energy utilization technology in China[J].Chinese Journal of Power Sources,2022,46(7):716-722.(in Chinese)

孙大陆，闫玮祎．天然气掺氢发电发展现状及其全产业链建设研究[J]．中国海上油气，2023,35(4):189-197.SUN D L,YAN W Y.Research on hydrogen-doped natural gas power generation development status and its industrial chain construction[J].China Offshore Oil and Gas,2023,35(4):189-197.(in Chinese)

王秀林，戴若云，张雨晴，等．海水直接电解制氢研究进展[J]．现代化工，2023,43(11):56-60.WANG X L,DAI R Y,ZHANG Y Q,et al.Research progress on hydrogen production by direct electrolysis of seawater[J].Modern Chemical Industry,2023,43(11):56-60.(in Chinese)