ENF Solar
言語:
English
中文
日本語
한국어
العربية
Français
Español
Deutsch
Italiano
会社のデータベース (
59,900
)
ソーラーパネル
コンポーネント
ソーラー素材
生産設備
販売会社
ソーラーパネル設置
ソフトウェア
製品ディレクトリ (
87,900
)
ソーラーパネル
インバーター
マウントシステム
チャージコントローラー
蓄電システム
太陽電池
保護剤
バックシート
広告掲載
会社のデータベース
製品ディレクトリ
ニュースレター
ENFについて
Excelデータベース
現地のセラー
お問い合わせ
ログイン
登録無料
The * is required !
Nothing has been updated!
ENF展示会および会議イベント提出フォーム
基本情報
*
展示会と会議の名前:
展示会と会議の名前 (zh):
中国語
*
ショートネーム :
ショートネーム (zh):
中国語
*
場所 :
場所 (zh) :
中国語
*
開始日 :
*
終了日:
イベントロゴ :
アップロード
削除
Logo size: width < 200px, height < 80px
*
焦点内容 :
太陽光発電
再生可能エネルギー
国際/国内 :
国際
国内
*
電話 :
The format of phone number is not correct!
FAX :
The format of phone number is not correct!
*
Eメール:
The email format should be ***@***.***!
ウェブサイト :
The website address is not correct!
会議詳細:
前回会議の参加者数 :
会議チッケト費用 :
詳細
*
イベント説明 :
英語
中国語
日本語
韓国語
フランス語
ドイツ語
スペイン語
イタリア語
アラビア語
Ⅰ. Introduction: Background Passivated emitter and rear cell (PERC) is becoming the new generation of solar cell technology. Mature manufacturing processes and low capital investment make PERC capacity easy to expand, coupled with the downstream market demand for high-power modules, the PV industry to actively expand PERC capacity. In 2017, global solar cell capacity is about 125GW, including PERC capacity of 35GW. The new or upgraded P-type crystalline silicon solar cell production line in 2018 will basically use PERC technology. Compared with the conventional cell production line, PERC technology can increase the solar cell conversion efficiency effectively by only increasing the rear passivation and laser grooving steps and the cooperation of the metallization process. PERC technology makes P-type crystalline silicon solar cell efficiency improved to unimaginable. In Oct.2017, JinkoSolar announced record-breaking multi-Si PERC solar cell efficiency of 22.04%. In Feb.2018, LONGi LERRI announced record-breaking mono-Si PERC solar cell efficiency of 23.6%.The advantages of PERC technology are also reflected in the potential to be compatible with other high-efficiency cell and module technologies to continually improve efficiency and power generation. PERC solar cell efficiency can be further enhanced by using technologies such as MBB, selective emitter and TOPCon; combined diamond wire sawing and black silicon technology to increase the competitiveness of multi-Si cells. Bifacial PERC achieves double-sided power generation with almost no increase in cost and 10%-25% power generation gain at the system end, greatly enhancing the competitiveness and future development potential of PERC technology.Meanwhile, continuing improvement and localization of PERC equipment, as well as the maturity of PERC metallization paste technology, are also conducive to the rapid application of PERC technology, and the mass production efficiency of mono-Si and multi-Si PERC cell recently will be more than 22% and 21% respectively. However, in order to maintain competitiveness, PERC cells need to further enhance the conversion efficiency and reduce costs, improve yield and commit to solving the problem of light induced degradation (LID). 4th PERC Solar Cell and Bifacial Module Forum will be held in June 28, 2018 in Wuxi, Jiangsu, China. The upcoming conference will discuss global and China PV industry outlook and PERC prospect, competitive analysis and market share of multi-Si and mono-Si PERC cell, PERC solar cell production line optimization and key technology equipment, bifacial PERC solar cell technical challenges, test standards and rear side generation optimization, bifacial PERC module real power generation return on investment, PERC LID mechanisms and solutions, PERC solar cell efficiency improvement outlook, PERC solar cell paste and metallization technology, etc. Ⅱ. Conference Topics: ● Global and China PV industry outlook and PERC prospect ● PERC solar cell capacity expansion and market share outlook ● Competitive analysis of multi-Si and mono-Si PERC cell ● PERC efficiency outlook - how to achieve above 24% conversion efficiency ● LID mechanism and solutions for PERC cell ● Bifacial PERC technical challenges and solutions ● Bifacial PERC test standards and rear side generation optimization ● Bifacial PERC module real power generation return on investment ● PERC rear passivation process equipment - PECVD and ALD ● High quality TMA precursors boost PERC rear passivation ● Advanced laser opening technologies for PERC passivation layer ● PERC solar cell paste and metallization technology ● Experience of upgrading the conventional solar cell production line to PERC ● PERC production line optimization and next-generation technology ● TOPCon technology application prospects on PERC
一、展会介绍: 钝化发射极和背面(PERC)技术正在成为太阳电池新一代的常规技术。制造工艺的成熟和较低的资本投入使PERC电池产能易于扩张,加上下游市场对高功率组件的需求,光伏行业积极扩张PERC电池产能。2017年全球太阳电池产能约125GW,其中PERC电池产能达35GW。2018年新建或升级的P型晶硅太阳电池产线,基本都将采用PERC技术。 与常规电池产线相比,PERC技术仅需增加背钝化和激光开槽工段,以及金属化工艺的适当配合,就能有效提升太阳电池转换效率。PERC技术使P型晶硅太阳电池的效率提升到以前无法想象的地步。晶科能源2017年10月宣布了创纪录的多晶PERC电池22.04%效率,隆基乐叶2018年2月宣布了创纪录的单晶PERC电池23.6%效率。 PERC技术的优势还体现在与其他高效电池和组件技术兼容,持续提升效率和发电能力的潜力。通过与多主栅、选择性发射极和TOPCon等技术的叠加,PERC电池效率可以进一步提升;组合金刚线切割和黑硅技术,可以提高多晶电池性价比。而双面PERC电池在几乎不增加成本的情况下实现双面发电,在系统端实现10%-25%的发电增益,极大地增强了PERC技术的竞争力与未来发展潜力。 与此同时,PERC产线设备的持续完善和国产化,以及适用于PERC工艺的导电浆料和金属化技术的不断进步,也有利于PERC技术的推广应用,PERC单晶与多晶电池量产效率近期将普遍超过22%和21%。但PERC电池要保持竞争优势,仍然需要进一步提升转换效率,降低成本,提升良品率,并解决光致衰减(LID)问题。 第四届PERC太阳电池与双面发电论坛将于2018年6月28日在江苏无锡召开。会议将探讨全球与中国光伏行业展望与PERC技术前景,多晶与单晶PERC电池的竞争力分析与市场份额,PERC电池产线优化与关键技术装备,双面PERC电池技术挑战、测试标准与背面发电优化,双面PERC电池组件实际发电投资回报,PERC电池LID机理与解决方案,PERC电池效率提升展望,PERC电池导电浆料与金属化工艺等。 二、会议主题: ● 全球与中国光伏行业展望与PERC技术前景 ● PERC电池产能扩张与市场份额展望 ● 多晶与单晶PERC电池的竞争力分析 ● PERC电池效率提升展望—如何实现24%以上的转换率 ● PERC电池光致衰减(LID)机理与应对措施 ● 双面PERC电池技术挑战与解决方案 ● 双面PERC电池测试标准与背面发电优化 ● 双面PERC电池组件实际发电投资回报分析 ● PERC背钝化工艺设备—PECVD与ALD ● 高品质TMA前驱体助力PERC背钝化效果提升 ● 用于PERC背膜开孔的先进激光技术 ● PERC电池导电浆料与金属化工艺创新 ● 常规电池产线升级改造为PERC产线的经验 ● PERC电池生产线优化与新一代技术研发 ● TOPCon技术在PERC电池的应用前景
更新