光伏产业革命性智能化解决方案
光伏产业革命性智能化解决方案 PV Industry Revolution Of Smart Solutions,Stone Wu 吴协祥,Chairman 地域:北美、中国、全球化。 Region: North America, China, globalization. 技术特征: Technical characteristics: 以集成电路、可再生能源与互联网为基础,从传统集中式的人类经营活动逐步变换为智能化分散经营方式; based on the developing of IC industry, renewable energy and the Internet technology, our life is gradually transformed from the traditional centralized human activity mode to intelligent decentralized one. 五个支柱:可再生能源、分散式智能化生产、分散式智能化储存、互联网智能化分配、零排放。Five pillars: renewable energy, production of distributed intelligent, storage of distributed intelligent, allocation of internet intelligence, zero emissions. 社会关系特征: Social characteristics: 传统的、等级化金字塔式的经济和政治权力将让位于以社会节点组织的扁平化权力。Flattening power organized by social node instead of the traditional, hierarchical economic and political power with pyramid structure.,光伏投资 About investment,光伏电站应关注的核心问题: 25年安全性、 25年发电量、 25年监控与运维 25年并网 Core issues: 25 years of security, power output, monitoring and maintenance, get on grid,光伏电站,真的值得投资吗?,非智能,不投资!,光伏产业全过程质量管理—风险汇总Total quality control of PV industry–Risk Summary,风险汇总,Risk Summary,电 站 全 过 程 质 量 风 险 环 节,逆变器质量问题、汇流箱质量问题 quality of the inverter and the header box 使用未经过认证和测试的零部件 Parts without certification and test,无法有效的运维 Ineffective maintenance,抢工期,施工存在质量问题 Construction quality problems 未按要求安装 not meet the requirements,组件可靠性风险 Module reliability 组件制造过程中风险 Manufacturing process 使用未经过认证和测试的零部件Parts without certification and test,包装质量问题 Packaging quality 运输过程导致损失 Transport process,设计不合理 Unreasonable design 发电量预计考虑因素不足 Insufficient considerations of power output 结构计算考虑不足,支架承 受载荷偏低 Insufficient consideration of structural calculations,Risk Links In whole process of power plant,No Smart,No Investment! 非智能,不投资!,第一类问题:光伏电站的发电量问题Power output problem,产生原因,Reasons,1.串联失配引起木桶效应Series circuits:Cask effect caused by mismatch 2. PID问题:电势差诱发衰减Potential Induced Degradation 3.设计不良Design problem 4.材料不良Material problem 5.施工不良Construction problem 6.运维不良Maintenance problem,No Smart,No Investment! 非智能,不投资!,1.串联失配引起木桶效应,Series circuits:Cask effect caused by mismatch,因为串联电路,各种无论组件内部或外部原因 带来的局部发电量损失将引发木桶效应而带来 超量的功率损失! Due to mismatch in series, the power drop or degradation caused by internal factors or external factors may bring much more power loss, which is a cask effect!,第一类问题:光伏电站的发电量问题Power output problem,No Smart,No Investment! 非智能,不投资!,木桶效应: Cask effect: 系统因串并联固有的特性,由设计、材料、遮荫遮挡等因素引起的电流电压失配问题、热斑问题时刻存在,带来光伏电站使用寿命25年中平均10%以上的巨大发电量损失。 Due to the inherent characteristic of series-parallel , current and voltage mismatching and hot spots, caused by design, materials or shadow, always bring more than 10% losses of power output during 25years lifetime.,第一类问题:光伏电站的发电量问题Power output problem,2. PID问题:电势差诱发衰减,Potential Induced Degradation,电势差诱发衰减(简称“PID”:Potential Induced Degradation)问题普遍存在,带来光伏电站随着使用寿命增加越来越严重、且因木桶效应而在系统中放大的巨大发电量损失。 The common PID problem brings enormous loss of output. The loss will increase on aging and be enlarged by cast effect.,25年使用寿命中,LID(Light induced degradation) \PID(Potential induced degradation) 等光伏技术与材料等固有特性造成的衰减不容忽视。 The module’s degradation of LID or PID will cause huge loss to module output during 25years life time。,PID,第一类问题:光伏电站的发电量问题Power output problem,No Smart,No Investment! 非智能,不投资!,3.设计不良,Design problem,光伏阵列设计在高压电缆附近,电缆受太阳辐照角度影响产生阴影遮挡现场,从而使组件产生热斑,影响发电效率。 The array is too close to high-voltage cables, which can lead to shape on modules and cause hot spot。,第一类问题:光伏电站的发电量问题Power output problem,No Smart,No Investment! 非智能,不投资!,4.材料不良,Material problem,电池片、EVA等原材料不良可能会导致组件功率不足。 Poor materials quality like solar cells, EVA and etc may cause low module output。,第一类问题:光伏电站的发电量问题Power output problem,No Smart,No Investment! 非智能,不投资!,5.施工不良,Construction problem,施工过程中现场组件随意叠放、搬运过程不注意减震、不按档位规划安装等,将增大组件隐裂与造成功率损失的风险。 Modules storage, delivery NOT proper cleaning & struck may cause modules broken。,第一类问题:光伏电站的发电量问题Power output problem,No Smart,No Investment! 非智能,不投资!,第二类问题:光伏电站的安全性问题security problem,产生原因,Reasons,1.热斑问题Hot spot problem risk 2.设计问题Design problem risk 3.材料问题Material problem risk 4.工艺问题Process problem risk 5.施工问题Construction problem risk 6.运维问题Maintenance problem risk,No Smart,No Investment! 非智能,不投资!,1.热斑问题,Hot spot,热斑问题不仅会造成组件失效,处理不当可能会引发火灾。 Hot spot may lead to module breakage, and even lead to fire if not handled properly。,第二类问题:光伏电站的安全性问题security problem,No Smart,No Investment! 非智能,不投资!,2.设计问题,Design problem,某电站在设计时忽略当地气候情况,导致电站组件无法抵御当地时常发生的沙尘灾害、连续闪电等,造成电站损毁等经济损失。 A plant ignore climate factors during design process. And the plant got damaged by local sand storm or lightning, which cause PV power station damage & big lost。,第二类问题:光伏电站的安全性问题security problem,No Smart,No Investment! 非智能,不投资!,3.材料问题,Material problem,电缆规格与电站设计使用不匹配,导致在实际使用中烧毁,易造成火灾。 The selected cables‘electrical capability don’t meet the power output current, which cause the cable burned。,第二类问题:光伏电站的安全性问题security problem,No Smart,No Investment! 非智能,不投资!,4.制造工艺不良,Manufacturing Process problem,a)电池片暗电流Cell reverse current b)电池片焊接工艺(虚焊、过焊)Cell soldering process c)层压交联度及其均匀性Gel-content uniformity test d)边框打胶均匀性影响密封长期可靠性Frame sealing long-term reliability performance.,第二类问题:光伏电站的安全性问题security problem,No Smart,No Investment! 非智能,不投资!,5.施工问题,Construction problem,施工过程中支架底部接地网焊接处 ,施工后未作防腐处理,易造成基 部腐蚀。 The bottom of support frame didn’t have corrosion preventing treatment and led to corrosion.,接地线的松动给电站造成安全隐患。 The loose of earth connection may lead to other danger.,第二类问题:光伏电站的安全性问题security problem,No Smart,No Investment! 非智能,不投资!,6.运维问题,Maintenance problem,清洗不当、运维中撞击等容易引起组件爆裂。 NOT proper cleaning & struck may cause modules broken。,第二类问题:光伏电站的安全性问题security problem,No Smart,No Investment! 非智能,不投资!,第三类问题:光伏电站的运维问题maintenance problem,监控与运维问题,Monitor and maintenance problem,光伏电站组件数量庞大占地面积巨大,难以实现有效的电站监控与运维!(100MW光伏电站须占地3500亩、须安装组件40万个)。 PV power station usually has huge numbers of modules, occupy big area, which hard to take effective monitoring & maintenance. (100MW PV power station needs 400,000pcs of modules,1 million square meters land area.),如何对光伏电站 实施有效的 监控与运维? How to implement effective monitoring and maintenance for PV power station?,对策,Solution,光伏电站智能化,实现光伏产业跨界发展之路! Smart PV solution to ensure the industry crossover development!,总体解决对策total solution,智能化技术发展趋势 What’s the Future?,我们的出路和机会:能源移动互联网 OUR solution & OPPORTUNITY: Energy Movable Internet,www.ggsolar.cn,No Smart,No Investment! 非智能,不投资!,能源互联网 Energy Internet,每个发电单元的智能化 Smart power generation unit,能源移动互联 Energy Movable Internet,电站数字化管理 Digital Management,智能化技术发展趋势,必然出路:智能组件与智能电站 Final solution: Smart module & Smart PV system,www.ggsolar.cn,提升发电量,5%,10%,2%,--,No Smart,No Investment! 非智能,不投资!,必然出路:智能组件与智能电站 Final solution: Smart module & Smart PV system,www.ggsolar.cn,No Smart,No Investment! 非智能,不投资!,太阳能技术与半导体技术、通讯技术、储能技术和互联网技术的结合,将是实现“第三次工业革命”的必然发展道路!,降低遮挡、失配、老化 等对发电量的影响,智能灭弧、关断提高系统安全性,减少运维成本,即时精确监控 数据下载分析,提高可靠性 提高系统效率,解决方案一:已建电站智能化—外挂优化器 Solution for the established PV system——Plug-in optimizer,使用外挂式功率优化器升级电站,可实现功率优化和故障诊断,通过 实时监控实现便捷运维。 The established PV system can optimize the power output and diagnose the fault via updated by plug-in optimizer. It also can make the real time monitor and maintenance comes true.,必然出路:智能组件与智能电站 Final solution: Smart module & Smart PV system,功率提升原理:统一电流 How the optimizer work: Uniform current,必然出路:智能组件与智能电站 Final solution: Smart module & Smart PV system,外挂优化器的优势,Advantages of plug-in optimizer,相比普通电站,外挂优化器年发电量平均可提高6%以上! Compare to regular PV plant, the plug-in optimizer can promote the output up to 6%!,必然出路:智能组件与智能电站 Final solution: Smart module & Smart PV system,经对比,智能芯片组件各项性能均优于分立器件智能组件。 The intelligent chip module is superior to intelligent discrete device one.,解决方案二:新建电站智能化—智能芯片组件 Solution for the new PV system——Intelligent chip modules,组件的智能化目前有两种技术方向,一种是基于分立器件的智能化,第二种是基于半导体智能管理芯片的智能组件,那么这两者各自的优缺点在哪呢? Currently there are mainly two methods for intelligent module research. One is the intellectualization based on discrete device, the other one is based on semiconductor chip.,必然出路:智能组件与智能电站 Final solution: Smart module & Smart PV system,提高地面覆盖利用率 Improve the utilization of ground 将站点开发成本降至最低,压缩 O&M 费用 Minimize development costs 将整个太阳能板寿命周期内的功率损耗降至最小 Minimize the power loss within module service life 消除热斑(主要的组件故障原因) Solve main problem , hot spot,VT8012 每 12 块电池 1 个优化器 12 cells, 1 chip,传统方式 Traditional 每 20 块电池 1 个旁路二极管 20 cells, 1 bypass diode,VT8020 每 20 至 24 块电池 1 片优化器芯片 20-24 cells, 1 chip,旁路二极管,,,优化器IC,,必然出路: 芯片级电池功率优化器 Final solution: Chip-level Cell optimizer,将MPPT功能深度嵌入到PV系统 Deeply embed MPPT into PV systems,智能组件工作原理,How the intelligent chip work,必然出路:智能组件与智能电站 Final solution: Smart module & Smart PV system,左图表示三个芯片控制三串电池,组件总功率240W,每串电池80W。Left shows three chips control three strings of cells, module’s total power is 240W, each string of cells 80W.,第一串一个电池被遮挡,芯片会调节该串的输出电流电压,确保该串的输出电流与另外两串保持一致,对应串的输出电压则降低了,使得该组件的输出功率为:25.5*8=204W When one cell of the first string is shadowed, the chip will regulate the output current and voltage of the string to ensure the output current consistent with the other two strings. The output voltage will be reduced. The output power of the module: 25.5 * 8 = 204W. 同理,若是普通组件,那么在一电池片被遮挡时,二极管导通,组件功率输出只有160W,那么智能组件输出功率相对提升的程度为: (204-160)/160=27.5% Compared to the general module, when one cell shadowed, the diode will conduct. Module power output is only 160W. So the improved range of output is: (204-160) /160=27.5%,方案对比--智能组件,Comparison of different modules Discrete Device,Traditional,Discrete Device,IC,成本: ~0.6元/瓦 Cost: ~ 0.6RMB/W 发电量: 5% Output: 5% 监控:组件级 Monitor: Module level,成本: ~0.5元/瓦 Cost: ~ 0.5RMB/W 发电量: 10% Output: 10% 监控:组件级 Monitor: Module level,必然出路:智能组件与智能电站 Final solution: Smart module & Smart PV system,VT8024EQD-C01,芯片智能接线盒,必然出路:智能组件与智能电站 Final solution: Smart module & Smart PV system,Comparison of Intelligent junction box,No Smart,No Investment! 非智能,不投资!,必然出路:智能组件与智能电站 Final solution: Smart module & Smart PV system,智能芯片组件的优势,Advantage of Intelligent chip module,相比普通组件,智能组件年发电量平均可提高10%以上! Compare to regular PV plant the intelligent chip module can promote the output up to 10%!,智能电站--智能电网,Smart PV system to smart grid,太阳能技术结合半导体技术、互联网技术和储能技术,将是实现“第三次工业革命”的必然发展道路! PV technology integrated with semiconductor, internet and energy storage technology will be the way to realize “the third industrial revolution”,