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During the "15th Five-Year Plan" period, the river basins in southeastern Tibet have been clearly identified as a core strategic area for hydropower development in China. Given the fragility and sensitivity of the ecosystem in this region, as well as the strong rigid constraints of the ecological protection red line, the construction of hydropower projects must promote the coordinated advancement of development and protection. The in-depth integration of green construction and intelligent construction has become a key path to achieve this goal. To this end, first of all, it is necessary to systematically sort out the development status and special requirements of intelligent construction technologies for hydropower projects. Furthermore, an in-depth analysis should be conducted on the core connotation, technical logic, and practical necessity of upgrading intelligent construction to green construction. Emphasis should be focused on the key technologies of pure clean energy power systems supporting the green construction of hydropower projects in southeastern Tibet. Finally, optimal strategies and implementation paths for green construction that conform to the ecological characteristics of the southeastern Tibet plateau have been proposed. The research results can provide theoretical support and practical reference for the sustainable development of hydropower projects in this region under ecological constraints, and help achieve the win-win goal of hydropower development and ecological protection.
[1] 舒印彪,陈国平,贺静波,等.构建以新能源为主体的新型电力系统框架研究[J].中国工程科学,2021,23(6):61-69.(SHU Y B,CHEN G P,HE J B,et al.Building a new electric power system based on new energy sources[J].Strategic study of CAE,2021,23(6):61-69.(in Chinese))
[2] 周孝信,赵强,张玉琼.“双碳”目标下我国能源电力系统发展前景和关键技术[J].中国电力企业管理,2021(31):14-17.(ZHOU X X,ZHAO Q,ZHANG Y Q.Development prospect and key technologies of China’s energy and power system under the goal of “double carbon”[J].China power enterprise management,2021(31):14-17.(in Chinese))
[3] 于贵瑞,郝天象,朱剑兴.中国碳达峰、碳中和行动方略之探讨[J].中国科学院院刊,2022,37(4):423-434.(YU G R,HAO T X,ZHU J X.Discussion on action strategies of China’s carbon peak and carbon neutrality[J].Bulletin of Chinese Academy of Sciences,2022,37(4):423-434.(in Chinese))
[4] 孔力,裴玮,饶建业,等.建设新型电力系统促进实现碳中和[J].中国科学院院刊,2022,37(4):522-528.(KONG L,PEI W,RAO J Y,et al.Build new power system to promote carbon neutrality[J].Bulletin of Chinese Academy of Sciences,2022,37(4):522-528.(in Chinese))
[5] 辛保安.坚决扛牢电网责任,积极推进碳达峰碳中和[N].人民日报,2022-02-23.(XIN B A.Firmly undertake the responsibilities of the power grid and actively advance the peaking of carbon dioxide emissions and carbon neutrality[N].People's Daily,2022-02-23.(in Chinese)).
[6] 中华人民共和国国家发展和改革委员会,国家能源局.“十四五”现代能源体系规划[R].2022.(National Development and Reform Commission of the People's Republic of China,National Energy Administration.14th five-year plan for the modern energy system[R].2022.(in Chinese))
[7] 蔡睿,朱汉雄,李婉君,等.“双碳”目标下能源科技的多能融合发展路径研究[J].中国科学院院刊,2022,37(4):502-510.(CAI R,ZHU H X,LI W J,et al.Development path of energy science and technology under“dual carbon”goals:Perspective of multi-energy system integration[J].Bulletin of Chinese Academy of Sciences,2022,37(4):502-510.(in Chinese))
[8] 周永斐,梅亚东,谢凡仪,等.基于主从博弈的风光蓄网短期优化调度[J].水力发电学报,2021,40(12):52-64.(ZHOU Y F,MEI Y D,XIE F Y,et al.Short-term optimal scheduling of wind-photovoltaic-pumped storage grid based on Stackelberg game[J].Journal of hydroelectric engineering,2021,40(12):52-64.(in Chinese))
[9] 闻昕,孙圆亮,谭乔凤,等.考虑预测不确定性的风–光–水多能互补系统调度风险和效益分析[J].工程科学与技术,2020,52(3):32-41.(WEN X,SUN Y L,TAN Q F,et al.Risk and benefit analysis of hydro-wind-solar multi-energy system considering the one-day ahead output forecast uncertainty[J].Advanced engineering sciences,2020,52(3):32-41.(in Chinese))
[10] 周建平,李世东,高洁.新型电力系统中“水储能”定位与发展前景[J].能源,2022(4):60-65.(ZHOU J P,LI S D,GAO J.Orientation and development prospect of “water energy storage” in new power system[J].Energy,2022(4):60-65.(in Chinese))
[11] 周建平,李世东,高洁.促进新能源开发的“水储能”技术经济分析[J].水力发电学报,2022,41(6):1-10.(ZHOU J P,LI S D,GAO J.Technical and economic analysis of “water energy storage” to promote new energy development[J].Journal of hydroelectric engineering,2022,41(6):1-10.(in Chinese))
[12] 彭程,彭才德,高洁,等.新时代水电发展展望[J].水力发电,2021,47(8):1-3,98.(PENG C,PENG C D,GAO J,et al.Prospects for hydropower development in a new development stage in China[J].Water power,2021,47(8):1-3,98.(in Chinese))
[13] 水电水利规划设计总院.中国可再生能源发展报告2020[M].北京:中国水利水电出版社,2021-06-25.(China Renewable Energy Engineering Institute.China renewable energy development report 2020[M].Beijing:China Water & Power Press,2021-06-25.(in Chinese))
[14] 中华人民共和国住房和城乡建设部.智能建造技术导则(试行)[R].2025.(Ministry of Housing and Urban-Rural Development of the People's Republic of China.Technical guidelines for intelligent construction (trial implementation)[R].2025.(in Chinese))
[15] 国家能源局.水电工程智能建造技术通则[R].2024.(National Energy Administration.General technical rules for intelligent construction of hydropower projects[R].2024.(in Chinese))
[16] 李庆斌,林鹏.论智能大坝[J].水力发电学报,2014,33(1):139-146.(LI Q B,LIN P.Demonstration on intelligent dam[J].Journal of hydroelectric engineering,2014,33(1):139-146.(in Chinese))
[17] 钟登华,王飞,吴斌平,等.从数字大坝到智慧大坝[J].水力发电学报,2015,34(10):1-13.(ZHONG D H,WANG F,WU B P,et al.From digital dam toward smart dam[J].Journal of hydroelectric engineering,2015,34(10):1-13.(in Chinese))
[18] 樊启祥,强茂山,金和平,等.大型工程建设项目智能化管理[J].水力发电学报,2017,36(2):112-120.(FAN Q X,QIANG M S,JIN H P,et al.Intelligent management of large-scale construction projects[J].Journal of hydroelectric engineering,2017,36(2):112-120.(in Chinese))
[19] 樊启祥,张超然,等.特高拱坝智能化建设技术创新和实践——300 m级溪洛渡拱坝智能化建设[M].北京:清华大学出版社,2018.(FAN Q X,ZHANG C R,et al.Intelligent construction technology innovation and practice of super-high arch[M].Beijing:Tsinghua University Press,2018.(in Chinese))
[20] 马洪琪,卢吉,陈豪.澜沧江流域水电站大坝智慧管理实践与展望[J].中国水利,2018(20):7-11,19.(MA H Q,LU J,CHEN H.Practice and prospect of intelligent management for hydropower dams in Lancang River Basin[J].China water resources,2018(20):7-11,19.(in Chinese))
[21] 杨顺群,郭莉莉,刘增强.水利水电工程数字化建设发展综述[J].水力发电学报,2018,37(8):75-84.(YANG S Q,GUO L L,LIU Z Q.Overview on digital construction in water conservancy and hydropower engineering[J].Journal of hydroelectric engineering,2018,37(8):75-84.(in Chinese))
[22] 钟登华,时梦楠,崔博,等.大坝智能建设研究进展[J].水利学报,2019,50(1):38-52,61.(ZHONG D H,SHI M N,CUI B,et al.Research progress of the intelligent construction of dams[J].Journal of hydraulic engineering,2019,50(1):38-52,61.(in Chinese))
[23] 樊启祥,陆佑楣,周绍武,等.金沙江水电工程智能建造技术体系研究与实践[J].水利学报,2019,50(3):294-304.(FAN Q X,LU Y M,ZHOU S W,et al.Research and practice on intelligent construction technology system of Jinsha River hydropower projects[J].Journal of hydraulic engineering,2019,50(3):294-304.(in Chinese))
[24] 陈祖煜,赵宇飞,邹斌,等.大坝填筑碾压施工无人驾驶技术的研究与应用[J].水利水电技术,2019,50(8):1-7.(CHEN Z Y,ZHAO Y F,ZOU B,et al.Study and application of unmanned driving technology or filling and rolling construction of earth-rockfill dam[J].Water resources and hydropower engineering,2019,50(8):1-7.(in Chinese))
[25] 张社荣,姜佩奇,吴正桥.水电工程设计施工一体化精益建造技术研究进展——数字孪生应用模式探索[J].水力发电学报,2021,40(1):1-12.(ZHANG S R,JIANG P Q,WU Z Q.Advances in research of lean construction technology of integrated design and construction for hydropower projects:Exploration of digital twin application mode[J].Journal of hydroelectric engineering,2021,40(1):1-12.(in Chinese))
[26] 于琦,张社荣,王超,等.基于WebGL的水电工程BIM正向协同设计应用研究[J].水电能源科学,2021,39(8):174-177.(YU Q,ZHANG S R,WANG C,et al.Application research on WebGL-based hydropower engineering BIM forward collaborative design[J].Water resources and power,2021,39(8):174-177.(in Chinese))
[27] 尤林奇,王楠,陶玉波,等.基于BIM+GIS的水利水电工程多源数据融合方法及应用[J].水电能源科学,2021,39(8):169-173.(YOU L Q,WANG N,TAO Y B,et al.Multisource data fusion in hydropower engineering and its applications based on BIM+GIS[J].Water resources and power,2021,39(8):169-173.(in Chinese))
[28] 崔鹏,贾洋,苏凤环,等.青藏高原自然灾害发育现状与未来关注的科学问题[J].中国科学院院刊,2017,32(9):985-992.(CUI P,JIA Y,SU F H,et al.Natural hazards in Tibetan Plateau and key issue for feature research[J].Bulletin of Chinese Academy of Sciences,2017,32(9):985-992.(in Chinese))
[29] 樊启祥,林鹏,魏鹏程,等.高海拔地区水电工程智能建造挑战与对策[J].水利学报,2021,52(12):1404-1417.(FAN Q X,LIN P,WEI P C,et al.Intelligent construction of hydraulic engineering in high altitude areas:Challenges and strategies[J].Journal of hydraulic engineering,2021,52(12):1404-1417.(in Chinese))
[30] 李鸿鹄.高海拔水电项目施工管理难点与应对措施研究[J].工程建设标准化,2025(6).(LI HONGHU.Study on difficulties and countermeasures in construction management of high-altitude hydropower projects[J].Engineering construction standardization,2025(6).(in Chinese))
[31] 中华人民共和国住房和城乡建设部.绿色建造技术导则(试行)[R].2021.(Ministry of Housing and Urban-Rural Development of the People's Republic of China.Technical guidelines for green construction (trial implementation)[R].2021.(in Chinese))
[32] 毛志兵,于震平.关于推进我国绿色建造发展若干问题的思考[J].施工技术,2014,43(1):14-16.(MAO Z B,YU Z P.Thinking on promoting development of green construction in China[J].Construction technology,2014,43(1):14-16.(in Chinese))
[33] 吴文伶,卢海陆,侯保灯,等.铁路、水利与建筑工程领域颠覆性技术研究[J].中国工程科学,2018,20(6):42-49.(WU W L,LU H L,HOU B D,et al.Research on disruptive technologies in railway,hydraulic,and architectural engineering[J].Strategic study of CAE,2018,20(6):42-49.(in Chinese))
[34] 李丛笑,张爱民,薛艳青,等.“双碳”战略下绿色建造发展路径研究[J].施工技术(中英文),2022,51(1):4-7,31.(LI C X,ZHANG A M,XUE Y Q,et al.Research on green construction development path under the “dual carbon” strategy[J].Construction technology,2022,51(1):4-7,31.(in Chinese))
[35] 胡耀谱,刘玲.基于绿色理念的水利水电施工技术和管理措施[J].灌溉排水学报,2023,42(4):146.(HU Y P,LIU L.Water conservancy and hydropower projects based on the green concept[J].Journal of irrigation and drainage,2023,42(4):146.(in Chinese))
[36] 郭文博,郑小丰,揭仕钦,等.基于BIM技术的建造智能化与绿色化研究[J].建筑结构,2023,53(增刊1):2367-2370.(GUO W B,ZHENG X F,JIE S Q,et al.Study on intelligence and greenization ofconstruction based on BIM technology[J].Building structure,2023,53(S1):2367-2370.(in Chinese))
[37] 孙留存,肖绪文,朱彤,等.中国绿色建造:发展理念、主导方向与技术创新[J].中国工程科学,2024,26(6):190-201.(SUN L C,XIAO X W,ZHU T,et al.Green construction in China:Development concept,leading directions,and technological innovation[J].Strategic study of CAE,2024,26(6):190-201.(in Chinese))
[38] 李志,曾伟,朱小敏,等.TB水电工程一体化绿色智能建造系统建设与应用[J].水利水电科技进展,2024,44(增刊1):19-23,73.(LI ZHI,ZENG WEI,ZHU XIAOMIN,et al.Construction and application of integrated green and intelligent construction system for TB hydropower project[J].Advances in science and technology of water resources,2024,44(S1):19-23,73.(in Chinese))
Basic Information:
DOI:10.20040/j.cnki.1000-7709.2026.20251981
China Classification Code:TV51;X322
Citation Information:
[1]LI Shi-dong,ZHOU Jian-ping,Power Construction Corporation of China.Prospects for Intelligent and Green Construction in the Southern Tibetan Plateau Hydropower Projects[J].Water Resources and Power,2026,44(03):1-9.DOI:10.20040/j.cnki.1000-7709.2026.20251981.
2026-01-08
2026-01-08
2026-01-08