“一带一路”国家分布式光伏潜力发展评估.pdf

1、1“一带一路”国家分布式光伏发展潜力评估WRI.ORG.CNCHARLIE DOU（都志杰）王珮珊 袁敏 苗红 宋婧“一带一路”国家分布式光伏发展 潜力评估ASSESSMENT OF DISTRIBUTED SOLAR PV POTENTIAL IN BRI COUNTRIESI“一带一路”国家分布式光伏发展潜力评估目录III 执行摘要VII Executive Summary1 第一章 分布式光伏对“一带一路”国家的意义1 “一带一路”及“一带一路”国家基本情况4 分布式光伏在全球的进展5 在“一带一路”国家发展分布式光伏的重要性7 第二章“一带一路”国家分布式光伏发展潜力评估7 分布式光伏

2、潜力评估方法学综述8 资源侧：建筑物屋顶分布式光伏潜力评估12 需求侧：无电地区分布式光伏潜力评估15 分布式光伏应用场景18 小结21 第三章 典型国家分布式光伏潜力评估21 埃塞俄比亚24 印度尼西亚29 第四章 结论与建议33 附录34 缩写表35 注释36 参考文献IIWRIIII“一带一路”国家分布式光伏发展潜力评估执行摘要主要结论 近年来气候变化带来的灾难性极端天气更加频繁。作为主要的温室气体排放源，能源部门迫切需要从化石燃料向可再生能源转变。由于经济欠发达，大多数“一带一路”国家i应对气候变化更具挑战性。分布式光伏技术成熟，成本下降，可应用于“一带一路”沿线国家的多种场景，为当地

3、经济发展和能源转型带来显著效益。本研究通过情景分析对分布式光伏在141个“一带一路”国家的发展潜力进行了评估，包括住宅和工商业建筑的屋顶光伏装机潜力以及用于满足无电地区电气化需求的离网光伏装机潜力。评估结果显示，到2030年，“一带一路”沿线141个国家的分布式光伏新增装机容量为150334GW，而离网光伏的装机潜力为6.414.0GW。IVWRI工业革命以来，全球地表平均气温升高导致的气候变化正在对世界各国社会经济发展造成越来越广泛的影响，如美国和澳大利亚的山火、埃塞俄比亚和印度尼西亚的干旱、中国河南郑州的特大暴雨灾害等。国际社会公认温室气体排放是导致气候变化的主因，而化石能源燃烧排放的二氧

4、化碳占全球温室气体排放总量的76%1。因此，加快世界各国能源系统由化石能源主导向可再生能源主导转变是全球应对气候变化的重中之重。气候变化对脆弱群体造成的威胁更加显而易见。联合国难民署的数据显示，大约90%的难民来自最脆弱和对适应气候变化影响最缺乏准备的国家2。“一带一路”国家 大多数为发展中国家，其中一部分国家（特别是非OECD国家）经济发展相对滞后，能源基础设施薄弱，仍有一定规模的人口无法获得电力。这些国家一方面需要大力发展经济，加快电力基础设施建设，改善民众生活；另一方面又受到气候变化带来的严峻挑战，需要在发展经济的同时采取有效措施减少温室气体排放。为应对全球气候变化，截至2021年11月

5、142个BRI国家中有139个国家提交了国家自主贡献（Nationally Determined Contributions，NDCs）文件，其中，超过80%的国家提出了可再生能源发展目标，约70%的国家制定了量化目标。可再生能源分布式应用是与集中式电站并重的推广清洁能源发电的重要措施。2010年以来，光伏发电成本下降超过 80%3，一些国家分布式光伏的平准化成本已显著低于居民用电价格，为大规模部署分布式光伏提供了可行性和广阔前景。但到目前为止，大部分BRI 141国家的非水可再生能源利用水平仍落后于全球平均水平。中国是全球范围内能源领域最大的投资者和设备供应商。在发展国内可再生能源的同时，

6、促进海外绿色能源投资尤为重要。除了在海外投资建设可再生能源电站，我们应该认识到分布式可再生能源，特别是分布式光伏，在“一带一路”沿线国家也有巨大的发展潜力和深远影响。例如，在住宅和工商业屋顶安装分布式光伏进行发电，也可以通过离网光伏系统为无电地区的人群提供电力。投资开发分布式可再生能源可以直接改善当地居民的生活质量，为实现可持续发展目标7(确保所有人都能获得负担得起、可靠、可持续的现代能源)做出贡献。本研究基于BRI国家的资源条件、经济发展阶段等因素，从分布式光伏在资源侧和需求侧的应用入手，通过构建“基础情景”和“积极情景”，重点对141个BRI国家屋顶光伏的开发潜力以及分布式光伏用于无电人口

7、通电的开发潜力进行了测算，并选取埃塞俄比亚和印度尼西亚两个典型国家进行分析。评估结果可供BRI国家能源规划主管部门参考，也可为各国在海外进行可再生能源投资和开展清洁能源对外援助提供帮助。研究结果重在展示分布式光伏在BRI国家的开发潜力，而不是具体项目开发层面的分析。评估结果显示，到2030年，141个BRI国家分布式屋顶光伏新增装机容量潜力为150334 GW，满足无电人口通电要求的分布式光伏装机容量为6.414.0 GW。在无电地区，分布式光伏的社会意义远大于经济意义，它直接关系到联合国可持续发展目标中“消除贫困”和“提供经济适用的清洁能源”等多个目标能否顺利实现。BRI国家开发利用分布式光

8、伏的意义和潜力需要得到规划者、决策者、投资者等相关方的充分关注。建议BRI 141国家的能源规划部门和决策部门将分布式光伏纳入本国的能源规划，积极营造有利于分布式光伏开发利用的政策环境；建议城市、园区/社区管理者发挥资源整合的作用，促进分布式光伏项目开发企业、当地电网公司、电力用户、屋顶业主、金融机构之间的协调，探索可持续的项目开发建设和运营管理模式；建议来自全球、区域及国别层面的各类多/双边发展机构的资金与技术援助为无电地区发展分布式光伏提供有力支持，充分发挥发展机构在分布式光伏项目识别、孵化与援助投资方面的资源与组织优势，与BRI国家电力可及的需求切实对接，进一步探索与商业机构形成联合体等

9、多方合作模式；建议中国的海外能V“一带一路”国家分布式光伏发展潜力评估源投资企业充分认识到分布式光伏的巨大市场潜力，选择条件相对成熟的地区/园区开展项目试点，并复制推广。中国在发展分布式光伏方面积累了多年的经验，在推动绿色“一带一路”建设的过程中，要加强与BRI国家的沟通分享，让中国经验真正有助于这些国家的能源绿色转型。研究方法屋顶分布式光伏（Rooftop PV）和无电地区分布式光伏是BRI国家分布式光伏的两种典型应用场景。对于前者，本研究采用建成区（Built-up area）面积法，在各类建筑屋顶投影面积的基础上，构建“基础情景”和“积极情景”，并考虑遮挡、屋顶坡度、朝向等影响太阳能利用

10、的主要因素，测算出有效屋顶面积，进而估算出装机容量。对于后者，本研究采用国际能源署（International Energy Agency，IEA）的无电人口最低供电标准（Access to Energy-Our World in Data），根据IEA（World Energy Outlook-2020）提供的2019年BRI国家现存无电人口数量，对离网光伏在无电地区电力建设应用领域中的前景进行评估和预测。此外，本研究还选取了埃塞俄比亚和印度尼西亚两个典型国家进行深入分析，最后对分布式光伏潜力评估中的关键结论进行了总结。数据来源本报告的数据来源主要分为“直接引用数据”和“分析归纳数据”两大类

11、直接引用数据。本报告的基本数据主要来源为如下国际组织或机构：联合国（United Nations，UN）、世界银行集团（World Bank Group，WB），国际货币基金组织（International Monetary Fund,IMF）、经济合作与发展组织（Organization for Economic Co-operation and Development，OECD）、人口资源局（Population Reference Bureau，PRB）、Our World in Data（OWID）、国际能源署（International Energy Agency，IEA）和国际可

12、再生能源署（International Renewable Energy Agency，IRENA）。分析归纳数据。本报告中，关于BRI国家的一些相关数据（文中未标注数据来源）系本研究团队根据上述国际组织和机构的基本数据汇总后建立了BRI数据库，并在此基础上进行分析计算而得出的数据。报告结构本报告分为四个部分。第一部分介绍BRI及BRI国家基本情况、全球分布式光伏发电发展现状、在BRI国家发展光伏分布式应用的重要性和光伏发电的主要应用方式。第二部分概述了评估分布式光伏潜力的常见方法，分别从资源侧和需求侧构建了分布式光伏的潜力评估模型。资源侧屋顶分布式光伏的潜力评估采用建成区面积法，对“基础情景

13、和“积极情景”两种情景下BRI国家2030年分布式光伏的开发潜力进行评估。需求侧主要从满足无电地区用电缺口的角度出发，评估了离网型分布式光伏的开发潜力。在此基础上，本部分还介绍了适用于BRI国家的分布式光伏典型应用，包括在居民和工商业屋顶的应用、与两轮/三轮微型电动车充电桩的结合、与农业种植/养殖设施的结合等。第三部分选取埃塞俄比亚和印度尼西亚作为“一带一路”合作的两个重点区域（非洲和东南亚）的代表国家，深入分析了这两个国家的能源供需与经济发展现状，从资源侧和需求侧对分布式光伏的开发应用潜力进行了评估，并识别了分布式光伏在这两个国家的主要应用场景。第四部分总结了BRI国家分布式光伏潜力评估的

14、关键结论，阐明了在BRI国家推进分布式光伏发展的现实意义，并对主要相关方提出了具体的行动建议。VIWRIVII“一带一路”国家分布式光伏发展潜力评估EXECUTIVE SUMMARYHIGHLIGHTS Climate change has made catastrophic extreme weather events more frequent in recent years.As the largest GHG emitter,the energy sector should shift from fossil fuels to renewables with urgency.It is

15、 more challenging for Belt and Road(BRI)countriesii,most of which are economically less developed,to tackle climate change.With technology growing mature and cost declining substantially,distributed solar PV could be applied to diverse scenarios in BRI countries,bringing significant benefits to both

16、 local economic development and energy transition.Scenario analysis has been conducted to evaluate the potential of distributed solar PV in 141 BRI countries,covering rooftop solar PV for residential and industrial/commercial buildings,as well as solar PV for rural electrification on the demand side

17、 where the local populations do not have energy access.The result shows that by 2030,the incremental capacity of distributed solar PV in 141 BRI countries could reach 150334GW,while the potential demand for off-grid solar PV will be 6.414.0 GW.VIIIWRIIntroductionIn recent decades,climate change has

18、had widespread impacts on socio-economic development worldwide.Catastrophic extreme weather events such as mountain fires,droughts,and heavy rainstorms,occurred more and more frequently.It is well recognized that greenhouse gas emissions are the primary cause of climate change.Carbon dioxide emissio

19、ns from fossil fuels account for 76%of total greenhouse gas emissions.Therefore,accelerating global energy transition from fossil fuels to renewables is the top priority for tackling climate change.Populations in less-developed areas are more vulnerable to climate change.According to UNHCR,about 90%

20、of refugees come from countries that are most vulnerable and least prepared for climate change adaptation.Most of the Belt and Road countries are developing countries with insufficient energy infrastructure,and significant portions of the local populations still lack access to electricity.Its challe

21、nging for these countries to balance economic development and the need to address climate change.As of November 2021,139 out of 142 BRI countries submitted Nationally Determined Contributions(NDCs).Among these 139 countries,about 70%have set quantitative renewable energy(RE)targets.Distributed renew

22、able energy is complementary to centralized renewable energy in supporting the clean energy transition.The cost of solar photovoltaic(PV)has dropped by more than 80%since 2010.In some countries,the levelized cost of distributed PV is already significantly lower than the price of residential electric

23、ity,which makes it more practical to scale up distributed solar PV around the world.China is the top investor and equipment supplier in the energy sector on a global scale.It is extremely important for China to promote overseas green investment while developing domestic renewable energy.In addition

24、to building large-scale renewable energy power plants overseas,we should realize that distributed renewable energies,particularly distributed solar,also have great potential in development and far-reaching impact in BRI countries.For example,distributed solar could generate electricity with resident

25、ial,commercial,and industrial rooftop installations,and be easily installed to deliver electricity to populations without access to the grid.Investment and development of distributed renewable energy could directly improve the local life quality and further contribute to Sustainable Development Goal

26、 7(Ensure access to affordable,reliable,sustainable,and modern energy for all).About this report This publication is based on existing analysis and provides a quantitative potential assessment focusing on distributed solar in BRI countries from residential,commercial,and industrial applications,as w

27、ell as rural electrification.Chinese enterprises(both state-owned enterprises and private-owned ones),as the main IX“一带一路”国家分布式光伏发展潜力评估entities of overseas investment,could be better informed on country-specific resources and the demand situation.This publication is intended to provide a general lan

28、dscape analysis with the aim of showing that there is huge market potential to develop distributed solar PV in BRI countries.As a preliminary potential analysis,this publication is not intended to conduct application-level analysis,due to operational and executional concerns.Research MethodsScenario

29、 analysis is applied to this research.We screened available rooftops in built-up areas and analyzed the growth trend in“base-line scenario”and“positive scenario”in the coming two decades,considering the main factors affecting solar energy utilization,such as shading,roof slope,and orientation,then c

30、alculated the potential installed capacity of distributed solar PV.Meanwhile,as off-grid solar system is well recognized as one of the best solutions to address the energy access issue,we also estimated the potential installed capacity of off-grid solar PV for those households which currently do not

31、 have access to electricity,assuming off-grid solar PV can meet 40%-60%of their lowest electricity demand.It should be noted that,there exists an overlap between results from“rooftop screening in built-up areas”and“off-grid solar system analysis”,so the two kinds of results should not be added up.Da

32、ta SourcesThe main data sources include the United Nations(UN),the World Bank Group(WB),the International Monetary Fund(IMF),the Organization for Economic Cooperation and Development(OECD),the Population Reference Bureau(PRB),Our World in Data(OWID),the International Energy Agency(IEA),and the Inter

33、national Renewable Energy Agency(IRENA).Based on data directly cited from the above-mentioned international organizations,the research team developed the BRI database for analysis.Structure of this reportThis report has four chapters.The first chapter provides basic information on the BRI and its me

34、mber countries,the status quo of the globally distributed PV development,the significance of promoting distributed solar PV in BRI countries,and the main applications of the solar power system.In the second chapter,the authors reviewed key evaluation methodologies of the potential distributed solar

35、PV,developed scenarios for potential evaluation through“rooftop screening in built-up areas”and“off-grid solar system analysis”.Furthermore,typical application models of distributed solar PV in BRI countries are presented,including applications on residential and commercial/industrial rooftops,integ

36、ration with the charging system for e-mobility,and integration with agricultural facilities.XWRIIn the third chapter,Ethiopia and Indonesia are selected as representative countries of the two key regions(Africa and Southeast Asia)of the BRI.Based on the two countries current economic development,ene

37、rgy supply and demand,this chapter assesses the potential of distributed solar PV from the rooftop resources and demand sides,and identifies the main application models of distributed solar PV in both countries.The fourth chapter summarizes the key findings of previous chapters,emphasizes the signif

38、icance of promoting distributed solar PV in BRI countries,and proposes recommendations to the main stakeholders.Conclusion and recommendations The assessment results show that by 2030,the potential incremental installed capacity of distributed solar PV capacity in 141 BRI countries could reach 150-3

39、34 GW,and 6.4-14.0 GW in installed capacity from off-grid solar systems is needed to meet the lowest electricity demand of populations currently without access to electricity.In terms of promoting off-grid solar systems in rural areas,the social implications far outweigh the economic ones,as it is d

40、irectly related to the achievement of the UN Sustainable Development Goals(SDGs),such as No Poverty and Affordable and Clean Energy.The significance and potential of the development and utilization of distributed solar PV in BRI countries require sufficient attention from planners,policymakers,inves

41、tors,and other stakeholders.Energy planning departments should incorporate distributed PV into their planning system.National and local policy-making authorities need to introduce appropriate guiding policies and measures to attract investors and project developers to enter the distributed PV market

42、Regulators from BRI countries cities,industrial parks,and communities need to facilitate the coordination amongst distributed solar PV developers,local utilities,electricity consumers,rooftop owners and financial institutions,and explore sustainable models for project development,construction,and o

43、peration management together.Multilateral/bilateral development agencies,with a unique role in project identification,incubation,and investment,should provide financial and technical assistance to promote distributed solar PV for energy access,connect supply with local demand,further explore multi-p

44、arty cooperation mechanisms with commercial institutions.It is suggested that Chinese overseas energy investment enterprises pay more attention to the potential of the distributed solar PV market in BRI countries,develop pilot projects in regions/industrial parks with relatively mature conditions,an

45、d scale up the success.China has accumulated rich experience in the development of distributed solar PV.To promote the Green Belt and Road Initiative,it is necessary for China to strengthen communication and experience-sharing with BRI countries,contributing to the energy transition in those countri

46、es.XI“一带一路”国家分布式光伏发展潜力评估XIIWRI1“一带一路”国家分布式光伏发展潜力评估 分布式光伏对“一带一路”国家 的意义第一章家）虽然有较好的太阳能资源，但分布式光伏尚未得到规模化开发利用。本研究报告将对BRI国家的分布式光伏潜力及典型应用场景进行探讨。1.1 “一带一路”及“一带一路”国家基本情况中国在2013年9月和10月分别提出了建设“丝绸之路经济带”和“21世纪海上丝绸之路”的合作倡议，简称“一带一路”倡议（The Belt and Road Initiative，以下或简称BRI，指含中国在内的142个“一带一路”国家，而BRI 141国家指不含中国的其余“一带一路

47、国家），旨在积极促进与相关国家（地区）的经济合作伙伴关系，实现共同发展。截至2021年11月，已有141个国家和32个国际组织与中国签署了共建“一带一路”合作文件7。对官方数据和本团队分析进行整合可得：“一带一路”141个国家占全世界1958个国家数量的72.3%；全部国土面积合计7251万km2，占总国土面积的53.3%；2020年，BRI141国家人口合计34.6亿人，占世界人口的44.6%。从BRI141国家经济发展水平来看，按世界银行92020年7月1日开始执行的收入标准划分iii，高收入国家共有9个，而中等偏下或者低收入国家共有104个，具体分布如图1.1所示。2020年，BRI1

48、41国家的人均GDP为5037美元，远低于同年全球人均GDP10926政府间气候变化专门委员会（IPCC）2021年8月发布的报告指出“全球升温1.5或仅需二十年，未来十年的果断行动加速减排对于全球温升控制至关重要4”。当前问题的核心不是全球气候是否在变暖，而是如何应对正在变暖的气候。2019年，全球的电力供应仍有62.2%来自化石燃料5，面对高碳排放的能源结构，我们需要促进可再生能源供电供热在工业、交通、建筑等重点领域的推广和规模化应用，尽早实现能源转型。当前，越来越多的国家对于可再生能源在脱碳领域的作用达成共识，并在NDC中提出了量化的可再生能源装机目标。这促进了太阳能和风能等可再生能源的

49、快速发展。能源系统由以化石燃料为主的传统集中式结构体系向以清洁能源为主、集中式和分布式并举的新型能源体系转型已是大势所趋。与传统的集中式化石燃料电站相比，分布式光伏的优势主要体现在以下几点：一是适应光伏资源分散性的特点；二是全生命周期内污染物排放和温室气体排放低；三是对远距离输电基础设施的投资需求大幅降低；四是消纳模式以自发自用为主，减少电力输送过程中的损失。因此，分布式光伏应用推广迅速，截至2020年，全球光伏累计装机容量为760.4GW6，其中分布式光伏为268GW，占比35.2%，但目前主要集中在发达国家。一些BRI141国家（如位于撒哈拉以南非洲、南亚、东南亚的国2WRI风能，565，

50、8%化石燃料，4,338，61%核能，402，6%地热，13，0%其他，18，0%海洋能，1，0%光伏，482，7%水电，1,284，18%低收入，70，49.6%BRI国家、国土和人口在世界的占比(a)2018年全球各类发电累计装机容量及占比BRI国家按世界银行收入标准分类高收入，9，6.4%图 1.1|BRI141国家基本情况图 1.2|全球和BRI 141国家总装机容量及发电量和可再生能源装机容量及发电量数据来源：UN Data-Energy Statistics Database 和 Our World in Data，本团队汇总分析美元的水平。这些中等偏下和低收入国家的经济亟须得到发