宋俊年
| 姓名 | 宋俊年 |
| 性别 | 发明专利4999代写全部资料 |
| 学校 | 吉林大学 |
| 部门 | 发明专利包写包过 加急申请 |
| 学位 | 发明专利包写包过 特惠申请 |
| 学历 | 版权登记666包过 代写全部资料 |
| 职称 | 教授 |
| 联系方式 | 实用新型1875包写包过 |
| 邮箱 | songjunnian@jlu.edu.cn |
| 集群智慧云企服 / 知识产权申请大平台 微信客服在线:543646 急速申请 包写包过 办事快、准、稳 软件产品登记测试 软件著作权666元代写全部资料 实用新型专利1875代写全部资料 |
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宋俊年 ( 教授 ) 赞106 的个人主页 https://teachers.jlu.edu.cn/jnSong/zh_CN/index.htm 教授 性别 : 男 学历 : 博士研究生毕业 学位 : 博士 在职信息 : 在职 所在单位 : 新能源与环境学院 办公地点 : 长春市前进大街2699号吉林大学南区唐敖庆楼C区440室 个人简介 宋俊年,吉林大学新能源与环境学院教授,博士生导师,英国伦敦大学学院访问学者。吉林省优秀青年基金、长春市优秀青年基金获得者,入选吉林省高校优秀青年科研创新人才、吉林大学唐敖庆教授(青年学者)、吉林大学优秀青年(重点阶段、精英阶段)、吉林大学优青培育计划。主要研究领域为环境管理与环境经济。硕士、博士期间获日本文部科学省奖学金及国家公派留学基金资助,毕业于日本筑波大学生命环境科学研究科。博士毕业后被吉林大学以海外A类人才引进直聘副教授。担任中国环境科学学会环境经济学分会委员、中国“双法”研究会能源经济与管理研究分会理事、日本地域学会委员等,SCI期刊Environment, Development and Sustainability副主编,Sustainability、Carbon Research、Frontiers in Sustainability、Asia-Pacific Journal of Regional Science期刊编委,吉林省科技厅、吉林省生态环境厅、吉林省发改委专家库专家。担任Nature子刊、Environmental Science & Technology等领域内顶级期刊审稿人。 主要研究方向为环境管理与环境经济,包括可持续食物与农业系统,废弃物资源化与能源化,新能源系统构建、评价与优化等。主持/参与国家自然科学基金、国家发改委中国清洁发展机制基金、国家重点研发计划、吉林省优秀青年基金、吉林省重点研发计划、吉林省生态环境厅、吉林省发改委、吉林省能源局项目等国家级和省部级项目20余项,累积经费支持500余万元。以第一作者/通讯作者在能源与环境领域中科院一区期刊Nature子刊Nature Food、Applied Energy、Energy Conversion and Management、Energy、Resources Conservation & Recycling等发表论文50余篇,包括多篇ESI高被引论文,累积他引1500余次。相关政策咨询报告获新华社(吉林分社)、吉林省人大常委会、吉林省生态环境厅、吉林 省能源局等采纳证明 8 项。 在应对全球气候变化、促进碳达峰和碳中和、推进能源结构和社会经济结构低碳转型的大背景下,着重于在国家层面和区域层面,研究新能源与可再生能源系统的构建、评价与优化,探索新能源与可再生能源,尤其是生物质能的发展潜力、发展机制和环境、经济、社会效益;针对生态环境-社会经济复杂系统,探索典型行业气候与环境影响驱动机制,社会经济系统中环境影响的结构化、网络化特征,生态环境-社会经济复杂系统系统要素耦合及演化特征,居民行为及政策调控对环境-经济系统的影响等。运用环境拓展的投入产出模型、投入产出优化模拟模型、精细化全生命周期评价、多指标决策模型、系统耦合与演化分析模型等研究方法,旨在从国家角度、区域角度、行业角度、行为角度等,提出可再生能源利用、气候变化与环境影响控制的政策建议,为决策者提供详实充分的数据和信息支持。主要经历2021.9-现在: 吉林大学 新能源与环境学院 教授/博士生导师;2023.10-2024.9: 英国伦敦大学学院 The Bartlett School of Sustainable Construction 访问学者;2016.5-2021.8: 吉林大学 新能源与环境学院 副教授/博士生导师;2013.4-2016.3: 日本筑波大学 生命环境科学研究科 博士;2011.4-2013.3: 日本筑波大学 生命环境科学研究科 硕士;2006.9-2010.6: 吉林大学 环境与资源学院 学士;主要科研项目吉林省优秀青年基金,农业生物质能利用多系统耦合与发展路径优化模 拟研究(2023);长春市优秀青年基金,生物质能利用的资源-物流-技术-政策多维系统构建与协同效 益模拟(2023);国家重点研发计划,大气污染与气候变化应对的协同机制与关键支撑技术(子课题)(2023);吉林省重点研发计划,吉林省种植-养殖-生物质能系统集成与环境影响协同管控研究(2023);长春市交通运输局,长春市交通运输领域碳达峰专项行动方案(2023);白山市发改委,白山市碳排放峰值预测及能源领域专题研究(2023);四平市发改委,四平市碳达峰实施方案编制研究(2023);德州市发改委,德州市工业碳排放达峰方案研究(2022);吉林省生态环境厅项目,生物质户用炉具污染物排放限值研究(2021);吉林省生态环境厅项目,吉林省三线一单编制项目(水资源利用上线管控研究)(2020);吉林省生态环境厅项目,吉林省重点行业碳排放路径及管控对策研究(2020);吉林大学优青培育计划(2019);国家自然科学基金青年基金,区域秸秆能源化利用的产业化全过程动态模拟与评价:基于投入产出模型(2019);吉林大学优秀青年计划(重点阶段)(2019);吉林省生态环境厅重点项目,吉林省重点区域生态环境综合整治专项行动(课题)(2017);吉林省发改委,吉林省碳达峰行动方案编制研究(2021);吉林省能源局,吉林省能源科技创新十四五规划(2020);吉林省科技厅优秀青年人才基金,能源-环境-经济协同视角下吉林省清洁煤发电技术产业化动态模拟研究(2019); 国家自然科学基金青年基金,区域环境-经济平衡目标下水污染物排放控制措施最优组合的模拟内生(2018);国家发改委中国清洁发展机制基金,吉林省碳排放峰值预测及应对气候变化长远战略研究(2018);主要一作/通讯论文Xing Jiahao, Song Junnian*, Liu Chaoshuo, Yang Wei*, Duan Haiyan, Yabar Helmut, Ren Jingzheng*. Integrated crop-livestock-bioenergy system brings co-benefits and trade-offs in mitigating the environmental impacts of Chinese agriculture. Nature Food 2022; 3: 1052-1064. (中科院1区)Duan Haiyan, He Bailin, Song Junnian*, Li Wei, Liu Ziyi*. Preference of consumers for higher-grade energy-saving appliances in hierarchical Chinese cities. Journal of Environmental Management 2023; 345: 118806. (中科院1区)Sun Chen, Song Junnian*, Zhang Dongqi, Wang Xiaofan, Yang Wei*, Qi Zhimin, Chen Shaoqing. Tracing urban carbon footprints differentiating supply chain complexity: A metropolis case. Energy 2023; 282: 128708. (中科院1区)Cao Qilin, Song Junnian*, Chaoshuo Liu, Yang Wei*. Evolving water, energy and carbon footprints in China's food supply chain. Journal of Cleaner Production 2023; 423: 138716. (中科院1区)Song Junnian, Dong Xingchen, Yang Wei*, Xing Jiahao, Xianze Wang*. Environmental co-benefits of energy recovery from wastewater of typical industrial sectors from life cycle perspective: Regional potentials in China. Energy Conversion and Management 2023; 293: 117450. (中科院1区)Song Junnian*, Liu Chaoshuo, Xing Jiahao, Yang Wei*, Ren Jingzheng. Linking bioenergy production by agricultural residues to Sustainable Development Goals: Prospects by 2030 in China. Energy Conversion and Management 2023; 276: 116568. (中科院1区)Song Junnian*, Liu Zhenrui, Kai Fang, Dong Xingchen, Yang Wei*. An evolving energy-environmental-economic system towards coordination: Spatiotemporal features and key drivers. Journal of Cleaner Production 2023; 384: 135537. (中科院1区)Duan Haiyan, Sun Xiaohang, Song Junnian*, Xing Jiahao, Wei Yang*. Peaking carbon emissions under a coupled socioeconomic-energy system: Evidence from typical developed countries. Resources Conservation & Recycling 2022; 187: 106641. (中科院1区)Dong Xize, Song Junnian*, Duan Haiyan*. Prioritizing countries for implementing waste recycling under socioeconomic supports. Journal of Environmental Management 2022; 322: 116158. (中科院1区)Wang Xipan, Song Junnian*, Xing Jiahao, Duan Haiyan, Wang Xian'en*. System nexus consolidates coupling of regional water and energy efficiencies. Energy 2022; 256: 124631. (中科院1区)Song Junnian, Qi Zhimin, Gai Yuxin, Chen Shaoqing*. Shared network and supply chain features for synergetic control of carbon and air pollutant emissions. Science of the Total Environment 2022; 827: 154391. (中科院1区)Duan Haiyan, Chen Siyan, Song Junnian*. Characterizing regional building energy consumption under joint climatic and socioeconomic impacts. Energy 2022; 245: 123290. (中科院1区)Song Junnian*, Feng Runchuan, Yue Chunlin, Shao Yixuan, Xing Jiahao, Yang Wei*. Reinforced waste management for the resource, energy and environmental benefits: China's regional potentials. Resources Conservation & Recycling 2022; 179: 106083. (中科院1区)Duan Haiyan, Zhao Qi, Song Junnian*, Duan Zhiyuan. Identifying opportunities for initiating waste recycling: Experiences of typical developed countries. Journal of Cleaner Production 2021; 324: 129190. (中科院1区)Yang Wei, Song Junnian*. Simulating optimal clean development of coal-fired power generation for collaborative reduction of air pollutant and CO2 emissions. Sustainable Production and Consumption 2021; 28: 811-823. (中科院2区)Wang Xipan, Song Junnian*, Duan Haiyan, Wang Xian'en*. Coupling between energy efficiency and industrial structure: An urban agglomeration case. Energy 2021; 234: 121304. (中科院1区)Zhong Weichen, Song Junnian*, Yang Wei*, Fang Kai, Liu Xiaoyu. Evolving household consumption-driven industrial energy consumption under urbanization: A dynamic input-output analysis. Journal of Cleaner Production 2021; 289: 125732. (中科院1区)Song Junnian*, Wang Bo, Yang Wei, Duan Haiyan, Liu Xiaoyu. Extracting critical supply chains driving air pollution in China. Journal of Cleaner Production 2020; 276: 124282. (中科院1区)Song Junnian*, Li Kexin, Ren Jingzheng, Yang Wei, Liu Xiaoyu. Holistic suitability for regional biomass power generation development in China: An application of matter-element extension model. Journal of Environmental Management 2020; 276: 111294. (中科院1区)Xing Jiahao, Song Junnian*, Ren Jingzheng, Yang Wei, Duan Haiyan. Regional integrative benefits of converting livestock excrements to energy in China: An elaborative assessment from life cycle perspective. Journal of Cleaner Production 2020; 275: 122470. (中科院1区)Wang Yichen, Song Junnian*, Yang Wei, Fang Kai, Duan Haiyan. Seeking spatiotemporal patterns and driving mechanism of atmospheric pollutant emissions from road transportation in China. Resources Conservation & Recycling 2020; 162: 105032. (中科院1区)Qi Zhimin, Song Junnian*, Yang Wei, Duan Haiyan, Liu Xiaoyu. Revealing contributions to sulfur dioxide emissions in China: From the dimensions of demand, driving effect and supply chain. Resources Conservation & Recycling 2020; 160: 104864. (中科院1区)Wang Xian'en, Li Wei, Song Junnian*, Duan Haiyan*, Fang Kai. Urban consumers' willingness to pay for higher-level energy-saving household appliances: Focusing on a less developed region. Resources Conservation & Recycling 2020; 157: 104760. (中科院1区)Duan Haiyan, Cui Liyan, Song Junnian*, Zhang Lixiao, Fang Kai, Duan Zhiyuan. Allocation of pollutant emission permits at industrial level Application of a bidirectional-coupling optimization model. Journal of Cleaner Production 2020; 242: 118489. (中科院1区)Wang Yichen, Song Junnian*, Yang Wei, Ren Jingzheng, Duan Haiyan. Unveiling the driving mechanism of air pollutant emissions from thermal power generation in China: A provincial-level spatiotemporal analysis. Resources, Conservation & Recycling 2019; 151: 104447. (中科院1区)Wang Hanning, Wang Xian’en, Song Junnian*, Ren Jingzheng, Duan Haiyan. Energy conversion of urban wastes in China: insights into potentials and disparities of regional energy and environmental benefits. Energy Conversion and Management 2019; 198: 111897. (中科院1区)Zhong Weichen, Song Junnian*, Ren Jingzheng, Yang Wei, Wang Shuo. Revealing the nexus among energy-economy system with Haken Model: Evidence from China's Beijing-Tianjin-Hebei Region. Journal of Cleaner Production 2019; 228: 319-330. (中科院1区)Song Junnian, Wang Bo, Fang Kai, Yang Wei*. Unraveling economic and environmental implications of cutting overcapacity of industries: A city-level empirical simulation with input-output approach. Journal of Cleaner Production 2019; 222: 722-732. (中科院1区)Wang Bo, Song Junnian*, Ren Jingzheng, Li Kexin, Duan Haiyan, Wang Xian’en. Selecting sustainable energy conversion technologies for agricultural residues: A fuzzy AHP-VIKOR based prioritization from life cycle perspective. Resources, Conservation & Recycling 2019; 142: 78-87. (中科院1区)Pu Yang, Song Junnian*, Dong Liang, Yang Wei, Wang Shuo, Wang Xian’en. Estimating mitigation potential and cost for air pollutants of China's thermal power generation: A GAINS-China model-based spatial analysis. Journal of Cleaner Production 2019; 211: 749-764. (中科院1区)Wang Xian’en, Li Kexin, Song Junnian*, Duan Haiyan, Wang Shuo. Integrated assessment of straw utilization for energy production from views of regional energy, environmental and socioeconomic benefits. Journal of Cleaner Production 2018; 190: 787-798. (中科院1区)Wang Hanning, Wang Xian’en, Song Junnian*, Wang Shuo, Liu Xiaoyu. Uncovering the regional energy and environmental benefits of urban waste utilization: A physical input-output analysis for a city case. Journal of Cleaner Production 2018; 189: 922-933. (中科院1区)Song Junnian*, Yang Wei, Wang Shuo, Wang Xian'en, Higano Yoshiro, Fang Kai. Exploring potential pathways towards fossil energy-related GHG emission peak prior to 2030 for China: An integrated input-output simulation model. Journal of Cleaner Production 2018; 178: 688-702. (中科院1区)Song Junnian, Yang Wei*, Li Zhaoling, Higano Yoshiro, Wang Xian’en. Discovering the energy, economic and environmental potentials of urban wastes: An input-output model for a metropolis case. Energy Conversion and Management 2016; 114: 168-179. (中科院1区)Song Junnian*, Yang Wei, Higano Yoshiro, Wang Xian’en. Dynamic integrated assessment of bioenergy technologies for energy production utilizing agricultural residues: An input-output approach. Applied Energy 2015; 158: 178-189. (中科院1区)Song Junnian*, Yang Wei, Higano Yoshiro, Wang Xian’en. Modeling the development and utilization of bioenergy and exploring the environmental economic benefits. Energy Conversion and Management 2015; 103: 836-846. (中科院1区)Song Junnian*, Yang Wei, Higano Yoshiro, Wang Xian’en. Introducing renewable energy development and industrial restructuring to reduce GHG emission: application of a dynamic simulation model. Energy Conversion and Management 2015; 96: 625-636. (中科院1区) 主要奖励及称号吉林省优秀青年基金获得者(2023)长春市优秀青年科技人才(2023)吉林省高校优秀青年科研创新人才(2023)吉林大学唐敖庆教授(青年学者)(2021)吉林大学优秀青年(重点阶段、精英阶段)(2019、2023)吉林大学优青培育计划(2019)吉林大学新能源与环境学院优秀青年(2018)日本筑波大学毕业表彰校长赏(2016)日本地域学会修士论文赏(2016)主要教学成果吉林省优秀硕士论文指导教师(2人次)北京大学唐孝炎环境科学创新奖获得者指导教师吉林大学优秀硕士论文指导教师(3人次)李四光奖学金获得者指导教师(2人次)研究生国家奖学金获得者指导教师(6人次)求实奖学金获得者指导教师(1人次)大学生创新创业训练计划国家级结题指导教师(5组) 教育经历 [1] 2006.9 -- 2010.6 吉林大学 环境科学 学士 [2] 2010.10 -- 2013.3 日本筑波大学 环境科学 硕士 [3] 2013.4 -- 2016.3 日本筑波大学 可持续环境学 博士 工作经历 [1] 2016.5 -- 2021.9 吉林大学 新能源与环境学院 副教授/博士生导师 [2] 2021.9 -- 至今 吉林大学 新能源与环境学院 教授/博士生导师 教师其他联系方式 [1] 邮箱 : songjunnian@jlu.edu.cn |
