Course 1

系统思维与能值核算导论
Systems Thinking and Emergy Accounting

系统思维与图解法反馈解析 A short summary of systems thinking and diagramming; the importance of feedbacks
能值核算：可持续性评估的系统生态学方法 Emergy accounting of an energy plant for sustainability assessment
可持续性概念解析：以沼气发电厂为例 The concept of sustainability: case study of a biogas power plant
能值核算中的系统边界拓展 The role of boundary extension in emergy accounting

Course 2

系统、能量质量与能值原理
Systems, Energy Quality, and Emergy Principles

系统图和开放系统热力学Introduces systems diagrams and open-system thermodynamic perspectives for analyzing ecological and human systems. Emphasizes energy flows, feedbacks, boundaries, and hierarchical organization in complex systems.

自然与人类系统中能值理论的原理及能量质量的概念Exploress the principles of emergy theory and the concept of energy quality in natural and human systems. Topics include transformity, hierarchy, maximum power, and the organization of energy flows across scales.

行星系统中能值与能转换率的定量评估方法 Introduces methods for the quantitative evaluation of emergy and transformity in planetary systems. Emphasis is placed on emergy baselines, energy flow accounting, and comparative analysis across ecological and economic systems.

Course 3

LCA-能值协同与循环经济政策
LCA-Emergy Integration and Circular Economy Policy

生命周期评估与能值核算 Quick description of LCA and its use for calculating UEVs; examples of agricultural chemicals
制浆造纸系统生态优化 Integrated use of LCA and Emergy for high-quality paper making and assessment
能值分析优化循环经济政策设计 Emergy for circular economy policy-making
城市废物管理能值建模 Urban waste management, wastewater, and waste management policies

Course 4

能值与全球系统；能值与经济学
Emergy & the Global System; Emergy and Economics

阐述全球过程、资源和产品的能值基础，并介绍生物圈动态能值（BDE）Develops the emergy basis of global processes, resources, and products. introduces Biosphere Dynamic Empower (BDE).

考察能值与货币体系之间的关系，将货币视为能量、物质和信息流动的逆流
Examines the relationship between emergy and monetary systems, framing money as a countercurrent to flows of energy, materials, and information.

对比经济学的“附加值”概念与基于能值的价值Contrasts the economic concept of value added with emergy-based value.

Course 5

交通、能源与城乡系统能值评估
Emergy Assessment of Transport, Energy, and Urban-Rural Systems

多模式交通系统能值评估 Transportation patterns and mobility policies
多元发电系统能值评估 Electricity generation from different sources
城乡系统能值评估 Emergy assessment of rural and urban environments
电子废弃物回收能值评估 Emergy evaluation of electronic waste recovery: costs and benefits

Course 6

能值、经济与国家系统

Emergy, Economy, and National Systems

国家尺度的能值核算Introduces emergy accounting at the national scale to examine patterns of international trade, purchasing power, and currency exchange rates.

探讨能值与货币购买力之间的关系Explores the relationship between emergy and currency purchasing power through comparisons of Gross Emergy Product and Gross Domestic Product.

探究各国经济表现及其根源上的不平等Examines the performance of national economies and disparities rooted in unequal access to environmental support and asymmetries in global exchange systems.

Course 7

能值评价案例与生物质发电
Emergy Evaluation Cases and Bioelectricity

货币-能量-能值的定义 Quick definition of value: money, energy, and emergy
能值评估实证案例 Practical examples of emergy evaluations for trade, agriculture, energy, recycling, and water
生物质发电系统能值核算 Emergy accounting of a bioelectricity production site
种养循环与能值子系统作用 Agriculture-breeding-conversion and the role of subsystems in emergy descriptions

Course 8

能值、生态系统与城市系统Emergy, Ecosystems and Urban Systems

将能值分析应用于森林、海洋和水生生态系统；从能值视角审视生物多样性Applies emergy analysis to forest, marine, and aquatic ecosystems; examines biodiversity from an emergy perspective.

通过连接资源开采、生产和信息密集型活动的系统等级结构，考察社会经济系统Examines socio-economic systems through a systems hierarchy that links resource extraction, production, and information-intensive activities.

揭示城市、土地利用及建筑中的能值模式，并引入能值强度作为衡量人类干扰的指标Presents emergy patterns in cities, land use, and buildings, and introduces emergy intensity as a measure of human disturbance

Course 9

生物质发电可持续性与尺度边界
Bioelectricity Sustainability, Scales, and Boundaries

生物质发电可持续性评估 Sustainability assessment of bioelectricity production through emergy indicators
系统可持续的尺度和边界 How different scales and boundaries address different narratives for system sustainability

Course10

环境影响与替代方案的能值评估
Environmental Impact and Emergy Assessment of Alternatives

通过对涵盖大、小尺度活动的案例进行基于能值的评估，发展环境影响评价的一般原则Develops general principles of environmental impact assessment through emergy-based evaluation of case studies spanning large- and small-scale activities.

从能值流、存量及系统组织的变化（而非孤立影响）来审视环境影响Examines environmental impacts in terms of changes to emergy flows, stocks, and system organization rather than isolated effects.

在系统框架内应用能值评估，比较替代投资、发展选项及资源管理策略Applies emergy evaluation to compare alternative investments, development options, and resource management strategies within a systems framework.

Course 1

能源系统与效率分析
Energy Systems and Efficiency

系统介绍 Introduction to systems
能源系统 Energy system
效率极限 Efficiency limits
需求减少 Demand reduction

Course 2

能源系统建模
Energy System Modelling

全球能源系统建模 Global energy systems modelling, e.g. global calculator or OSeMOSYS

Course 3

可持续材料与循环经济评价
Sustainable Materials and Circular Economy Metrics

可持续材料 Sustainable materials
循环经济创新评价 Circular economy metrics
重工业转型 Transforming heavy industry

Course 4

资源流可视化：桑基图
Visualising Resource Flows: Sankey Diagrams

桑基图原理与资源流可视化练习 Principles of Sankey diagrams and practical resource-flow visualisation

Course 5

技术-经济分析（TEA）基础与应用
Introduction to TEA and Applications

TEA核心概念 Key concepts and components of TEA studies
TEA应用 Applications in chemical engineering and energy systems

Course 6

可再生能源技术案例：平准化能源成本
Renewable Energy Case Study: Levelised Cost of Energy

基于可再生能源技术案例，开展平准化能源成本计算练习 Worked example towards calculating the levelised cost of energy for renewable energy technologies

Course 7

成本估算与财务评价
Cost Estimation and Financial Evaluation

成本估算 Estimating production costs
经济评估方法 Financial evaluation methods, e.g. NPV, IRR, pay-back period
敏感性分析 Sensitivity analysis: single-parameter, scenario analysis, and multi-parameter analysis, e.g. Monte Carlo

Course 8

可再生能源技术-经济评价综合案例
Integrated TEA Case Study for Renewable Energy

可再生能源技术-经济评估实例：敏感性测试与情景建模综合应用 Worked example assessing financial performance of renewable energy technology with sensitivity analysis and scenario analysis

Course 9

生命周期思维与LCA方法
Life Cycle Thinking and LCA Methodology

生命周期思维与方法概述 Overview of life cycle thinking and LCA methodology
LCA研究范式：从低成熟度技术实证到政策影响建模 Research applications of LCA from low-TRL technologies to policy impact analysis
LCA-TEA协同建模 Integrating LCA and TEA methods to quantify cost-climate trade-offs

Course 10

环境影响评估与LCA-TEA协同案例
Environmental Impact Assessment and Integrated LCA-TEA Case Study

可再生能源技术环境影响实证研究：LCA建模与多指标权衡框架 Worked example assessing environmental impacts of renewable energy technology
LCA-TEA协同建模实例：多情景下平准化减碳成本测算 Worked example quantifying the levelised cost of carbon savings

Prof. Sergio Ulgiati

意大利那不勒斯帕特诺普大学 | University of Naples Parthenope, Italy

环境科学教授，可持续系统分析与生态经济学专家。研究融合能值分析与生命周期评估（LCA），量化自然-社会系统资源流动与可持续性，关注可再生能源系统优化、城市代谢建模及环境-社会系统耦合。

Professor of Environmental Science and expert in sustainable systems analysis and ecological economics. His work integrates Emergy Analysis and LCA to quantify resource flows and sustainability in nature-society systems, with a focus on renewable energy systems, urban metabolism, and environment-society nexus.

Prof. Francesco Gonella

意大利威尼斯大学 | Ca' Foscari University of Venice, Italy

威尼斯 Ca’ Foscari 大学教授，曾任国际复杂疾病系统动力学研究中心主任。研究兴趣包括环境物理学、环境-健康耦合、系统思维及高等教育。

Professor at Ca' Foscari University of Venice. He was Director of the Center for the Study of the Systemic Dynamics of Complex Diseases. His research interests include environmental physics, environment-health nexus, systems thinking, and higher education.

Prof. Gengyuan Liu

北京师范大学 | Beijing Normal University

北京师范大学教授，长期致力于城市代谢、环境耦合、生态产品价值实现等方面的研究。

Professor at Beijing Normal University. His research focuses on urban metabolism, environmental nexus, and value realization mechanisms for ecological products.

Prof. Jon McKechnie
诺丁汉大学 | University of Nottingham
可持续工程教授，主要研究能源系统技术-经济分析（TEA）与生命周期评价（LCA）。研究方向包括可再生能源成本建模、碳捕集系统评估及生物质/废弃物资源化路径优化。
Professor of Engineering Sustainability, specialising in TEA and LCA for energy systems. His research covers renewable energy cost modelling, carbon capture system evaluation, and optimisation of biomass and waste valorisation pathways.

Dr. Fanran Meng
谢菲尔德大学 | University of Sheffield
格兰瑟姆未来可持续未来中心研究员，化学、材料与生物工程系长聘副教授。研究聚焦资源效率与可持续工程系统，融合过程模拟、物质流分析、LCA/TEA与优化方法。
Senior Lecturer in Sustainable Chemical Engineering and researcher at the Grantham Centre for Sustainable Futures. His work focuses on resource efficiency and sustainable engineering systems, integrating process modelling, material flow analysis, LCA/TEA, and optimisation.

多尺度生态模拟与环境安全调控技术创新基地

Multi-scale Ecological Simulation and Environmental Security Regulation Technological Innovation Base

区域环境安全全国重点实验室

State Key Laboratory of Regional Environment and Sustainability

国际能值分析学会

International Society for Advancement Emergy Research

国际清洁生产进展网络

Advances in Cleaner Production Network

中国城市科学研究会城市群绿色发展专业委员会

Urban Agglomeration Green Development Committee of Chinese Society for Urban Studies