《可持续发展与可持续能源系统》课程教学大纲(2021版) 课程基本信息(Course Information) 课程代码 学时 Course EC0L3416 (Credi 32 学分 2 (Credits) Code) Hours) *课程名称 可持续发展与可持续能源系统 ustainability and Sustainable Energy Systems 课程类型 先修课Elective course (Course Type) 授课对象 面向高年级本科生或研究生/The couse is intended for advanced (Targe Audience) ndergraduates and graduate students 授课语言 英语/English 开课院系 (School) 农业与生物学院/School of Agriculture and Biology 先修课程 物理,基础数学/Physics,.后续课程 (Prerequisite) asic mathematics Kpost) 无 课程负责人 侬业与生物学院刘荣厚教课程网址 (Instructor) KCourse Webpage) 本门课程主要包含两部分,由五位老师分别讲解: 1)第一部分为“能源、食品与城市化的可持续系统”,主要讲解人类社会 面临的主要问题是创造一个政策支持并鼓励融合能源、环境与自然资源的 持续的社风。最关键的在干联诵住房、交通、环墙影响。经济发展与补会 福利,使得其满足社区的目前要求且能够同时保护环境以供未来的需求。 可供融合城市建设分析的系统解决方法是,“绿色”建筑、可再生能源、交 “课程简介(中通、经济发展、农业与食品系统、水资源管理、垃圾管理以及沟通/治理。 文) 学生将学会评估和接触到:)发展可持续社区的不同方法:)节约能源和充 (Descriptior)分利用能源的好处:m)替代能源:生物能源、太阳能、风能、地热设计等可 重生能陌 2)可持续工程设计”由Sunghwan Jung教授主讲。课程由讨论大自然中的 可持续自然设计开始,主要以动物系统中的设计为例。然后讲解如何测算 然设计中的质、势、与能量平衡,根据能量与势的平衡测算目前的可持续能 源系统,如太阳能板、风力涡轮等等。学生将会从技术层面学习到能量与质 量的转换,并批判地学习作为可持续发展解决方法的生物启发设计
《可持续发展与可持续能源系统》课程教学大纲(2021 版) 课程基本信息(Course Information) 课程代码 (Course Code) ECOL3416 *学时 (Credit Hours) 32 *学分 (Credits) 2 *课程名称 (Course Name) 可持续发展与可持续能源系统 Sustainability and Sustainable Energy Systems 课程类型 (Course Type) 选修课/Elective Course 授课对象 (Target Audience) 面向高年级本科生或研究生/The course is intended for advanced undergraduates and graduate students 授课语言 (Language of Instruction) 英语/English *开课院系 (School) 农业与生物学院/School of Agriculture and Biology 先修课程 (Prerequisite) 物理,基础数学/Physics, basic mathematics 后续课程 (post) 无 *课程负责人 (Instructor) 农业与生物学院刘荣厚教 授 课程网址 (Course Webpage) *课程简介(中 文) (Description) 本门课程主要包含两部分,由五位老师分别讲解: 1)第一部分为“能源、食品与城市化的可持续系统”,主要讲解人类社会 面临的主要问题是创造一个政策支持并鼓励融合能源、环境与自然资源的 可持续的社区。最关键的在于联通住房、交通、环境影响、经济发展与社会 福利,使得其满足社区的目前要求且能够同时保护环境以供未来的需求。 可供融合城市建设分析的系统解决方法是,“绿色”建筑、可再生能源、交 通、经济发展、农业与食品系统、水资源管理、垃圾管理以及沟通/治理。 学生将学会评估和接触到:i)发展可持续社区的不同方法;ii)节约能源和充 分利用能源的好处;iii)替代能源:生物能源、太阳能、风能、地热设计等可 再生能源。 2)“可持续工程设计”由 Sunghwan Jung 教授主讲。课程由讨论大自然中的 可持续自然设计开始,主要以动物系统中的设计为例。然后讲解如何测算自 然设计中的质、势、与能量平衡,根据能量与势的平衡测算目前的可持续能 源系统,如太阳能板、风力涡轮等等。学生将会从技术层面学习到能量与质 量的转换,并批判地学习作为可持续发展解决方法的生物启发设计
This course consists of2 parts Sustainable Systen sfor Energy,Food and Urbanization The major challenge,facingour,is sustainable hat are supported and encouraged via policies that integrate energy. environment and natural resources.The focus is interconnectivity of housing. ransportation.environmental impacts.economic development and social ellbeing"that meets a community's eeds while environmen o that these needs can ”A system approach will be utilized to integrate analysis of urban design,green buildings,renewable energy.transportation,economic development,agriculture *课程简介(英and food systems,vater management,.waste management and ommunication/governance Students will be able to evaluate and assess:i) tion arious practices )benefits of energy conservation and efficiency options,and i)renewable energy optionso bioenergy,solar,wind and geothermal designs. 2)Sustainable engineering designs This course starts with discussing sustainable natural designs in nature,mostly animal systems.Mass,momentum,and energy balanc eintroduced to a how to quantitively evaluate the performance of natural designs.Also,w will practice to evaluate our current sustainable energy systems based on energ and momentum balances;e.g.solar panel,wind turbines,and more.Students will learn technical aspects of energy and mass transfer and will critically think about bio-inspired design as possble sustainable solutions. 课程目标与内容(Course objectives and contents) 1.The student will be able to identify anaerobic digestion.and evaluate and ss the value of bi energy conve ersior technologies,thermocl conversion of biomass,and various practices leading to development of sustainable and resilient communities.(A5.B2) 2.The student will be able to identify and determine benefits of energy conservation and efficiency options.(B2,B4) The student will be able to valuate the various options of bio-based energy systems (B5,C3) *课程目标 4.The student will be able to evaluate renewable energy options of solar. (Course Object)wind and geothermal designs.(B4.C4) 5.Students will be able to identify,evaluate,and discuss mass,momentum, and energy balances of natural or sustainable engineering systems.(B2.C3) 6.Students will understand how biological systems achie sustainable lutions.(B3.B4) 7.Students will evaluate the performance/efficiency of sustainable energy systems.(B4,C5) 8.Students critically think about addressing a problem or need related to sustainability.(C3,D1)
*课程简介(英 文) (Description) This course consists of 2 parts: 1)Sustainable Systems for Energy, Food and Urbanization The major challenge, facing our society, is to create sustainable communities that are supported and encouraged via policies that integrate energy, environment and natural resources. The focus is interconnectivity of housing, transportation, environmental impacts, economic development and social wellbeing “that meets a community’s current needs while preserving the environment so that these needs can continue to be met in the future.” A systems approach will be utilized to integrate analysis of urban design, “green” buildings, renewable energy, transportation, economic development, agriculture and food systems, water management, waste management and communication/governance. Students will be able to evaluate and assess: i) various practices needed to develop sustainable communities, ii) benefits of energy conservation and efficiency options, and iii) renewable energy options of bioenergy, solar, wind and geothermal designs. 2) Sustainable engineering designs This course starts with discussing sustainable natural designs in nature; mostly in animal systems. Mass, momentum, and energy balance will be introduced to learn how to quantitively evaluate the performance of natural designs. Also, we will practice to evaluate our current sustainable energy systems based on energy and momentum balances; e.g. solar panel, wind turbines, and more. Students will learn technical aspects of energy and mass transfer and will critically think about bio-inspired design as possible sustainable solutions. 课程目标与内容(Course objectives and contents) *课程目标 (Course Object) 1. The student will be able to identify anaerobic digestion, and evaluate and assess the value of biomass energy conversion technologies, thermochemical conversion of biomass, and various practices leading to development of sustainable and resilient communities. (A5, B2) 2. The student will be able to identify and determine benefits of energy conservation and efficiency options. ( B2, B4) 3. The student will be able to evaluate the various options of bio-based energy systems (B5, C3) 4.The student will be able to evaluate renewable energy options of solar, wind and geothermal designs. (B4, C4) 5. Students will be able to identify, evaluate, and discuss mass, momentum, and energy balances of natural or sustainable engineering systems. (B2, C3) 6. Students will understand how biological systems achieve sustainable solutions.(B3, B4) 7. Students will evaluate the performance/efficiency of sustainable energy systems. (B4, C5) 8. Students critically think about addressing a problem or need related to sustainability. (C3, D1)
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