Ege Üniversitesi Solar Energy Institute Ege University
Transcription
Ege Üniversitesi Solar Energy Institute Ege University
Üniversitesi SolarEge Energy Institute Ege University PHOTOVOLTAICS IN TURKEY Prof. Dr. E. SIDDIK ICLI 7th April 2010, Franfurt Franfurt,, GERMANY NUMOV – German Near & Middle East Assoc. Federal Ministry of Economics & Technology Solar irradiation on the surface of the Earth: 4.1x1013 kcal (1.7x1014 kW) Total Energy Consumption on Earth: 13 TW (1.3x1010 kW). Portion of the solar irradiation: only 10-4 Solar irradiation at Outer Space: 1370 W/m2 On the surface of Earth: 0-1100 W/m2 Ege University Solar Energy Institute Founded in 1978 Graduate Education & Research on Renewable Energies-Technological Applications. Ege University Solar Energy Institute (SEI): (http://eusolar.ege.edu.tr/) • SEI was established in 1978 for graduate education and research on solar energy and its applications containing two divisions named Energy and Energy Technology. • Along with the solar energy, the other renewable energy resources like wind, biomass and geothermal, are being studied. • Solar electricity researches in SEI are being conducted by two work groups – PV Group and DSSC Group. PV group concentrates on the lamination of silicon solar cells, design, utilization, testing and performance analysis of PV power system in different topologies. DSSC group studies the development of organic dye-sensitized solar cells. 10 Faculty Members, 6 PhDs, 36 Full-Time Research workers, 12 Administrative and tecchnical personnel 33 M.Sc. 61 PhD students Total: 94 National & International Project partners • RECENT PATENTS • Organic Dye Solar Cells, PCT, EP-03009232, 2003. • PERYLENE IMIDE/DIIMIDE BASED ORGANIC FIELD EFFECT TRANSISTORS-OFETs AND A METHOD OF PRODUCING THE SAME”, PCT/ IB2005/50997, 2005. • “Low Temperature Dye Attached Mesoporous TiO2-Dye Thin Films for Photovoltaic Applications” PCT/IB2005/002502, 12 August, 2005. • NOVEL RUTHENIUM COMPLEXES FOR DYE SENSITIZED SOLAR CELLS: C. Zafer, K. Ocakoglu, PCT/ IB2006/, November 2006 PROJECT SUPPORTS • DPT-State Planning Organization: 2003-2006 DPT-State Planning Organization: 2007-2008 • TÜBİTAK (Scientific & Techical Research Council of Turkey) Projects: TBAG, MAG, BAYG, BDP • European Community Projects VI. Frame Program: 1- MOLYCELL–Molecular Orientation, Low band gap and new hYbrid device concepts for the improvement of flexible organic solar CELLs; 2004-2006, 12 partners 2- OrgaPVNet-Coordination Action towards stable and low-cost organic solar cell technologies and their application; 2007-, 22 partners. 3 – ORGANISOLAR: European Science Foundation Project: 2006-, 25 partners. 4 – ERASMUS-SOCRATES, Johannes Kepler Univ., Lİnz, Austria (Prof. S.N. Sariciftci). • Project protocols with private Industrial Organizations (TŞCF, Demirel-Enercon,Altema) PHOTO VOLTAIC PRODUCTIONS: RESEARCH INSTITUTES & COMPANIES in TURKEY * UNIVERSITIES-RESEARCH UNSTITUTES: 1. EGE University, Solar Energy Institute, IZMIR (Prof. Dr. Sıddık Icli) 2. Middle East Technical Univ.-ANKARA (Prof. Dr. Rasit TURAN, Physics Dept.) 3. Mugla University-MUGLA (Prof. Dr. Sener Oktik, Physics Dept.) 4. Gazi University, ANKARA (Prof. Dr. Suleyman Ozcelik, Physics Dept.) 5. Istanbul Technical Univ., Energy Insdtitute, ISTANBUL (Prof. Dr. Altug Sisman) 6. TUBITAK Marmara Research Center, Energy Institute, Gebze, KOCAELI, Dr. Mustafa Tiris) COMPANIES 1. ANELTECH Co., ISTANBUL 2. NUROL TECHNOLOGIES Co., ANKARA 3. GIRASOLAR Ltd. Co., IZMIR 4. DATA-TSP Ltd. Co., IZMIR 1. EGE University, Solar Energy Institute, IZMIR (Prof. Dr. Sıddık Icli) Production of Photovoltaic Panels by Lamination System at Solar Energy Inst., Ege University -2006 (Izmir) Cost Advantage for Turkey: %30-35 Solar Energy Institute of Ege University PhotoVoltaic Panels on the roof Constructed PV Panels at Parking Place of the Institute OECD-International Energy Agency (IEA) Photovoltaic Power Systems (PVPS) Agency 21 Members Countries, including Turkey (represented by Prof. S. Icli) 32. PVPS Excutive Committee Meeting - Wien, 27/10/2008 IEA-PVPS ANNUAL REPORTS: 12 34th Executive Committee Meeting Anaheim, California, 29-30 Oct., 2009 NATIONAL PHOTOVOLTAIC TECHNOLOGY PLATFORMNPVTP “ULUSAL FOTOVOLTAİK TEKNOLOJİ PLATFORMU - UFVTP” Established in 2008 DIRECTOR: Prof. Dr. SIDDIK ICLI, General Secretary: Res. Assist. Mr. METE CUBUKCU Solar Energy Institute, Ege University Lojmanlar Kampusu, 35100 Bornova İzmir, TURKEY Phone: 02323886023-127, 02323884000-1241, Fax: 02323886027 www.trpvplatform.org E-mail:[email protected] National PV Technology Platform (NPVTP): • Ege University Solar Energy Institute (SEI) has initiated the “Formation of National PV Technology Platform’’ project which will lead to a platform with the participation of the universities and the industrial companies, obtaining financial support from TÜBİTAK (The Scientific & Technological Research Council of Turkey). • The aim of the project is defining effective PV technology programs and setting the PV roadmap for Turkey. • The platform has been commissioned to execute IEA-PVPS (International Energy Agency-Photovoltaic Power Systems) activities on behalf of Turkish Government. NPVTP now operate with 46 members and 40 researchers Members of NPVTP of Turkey Universities & Resrach Institutes (13) Bilkent University • Middle East Technical University • • Ege University • Kocaeli University • Hacettepe University • Muğla University • Haliç University • TUBITAK-UME • Gebze Yüksek Teknoloji Enstitüsü • Harran University • Pamukkale University • Özyeğin University • Gazi University State Organizations (8) •Ministery of Develeopment & Housing •KOSGEB •National Electricity Management of Ministery •TEDAŞ-Electricity Distirbuion Co. of Energy •Ministery of Energy & Natural Sources •TOKİ •Gediz Elektric Incorporated Company •TSE-Turkish Standarts Institute Chambers of Industry and Commerce (2) •Antalya Chamber of Industry & Commerce •Ege Regional Chamber of Industry Associations and Foundations (4) •Turkish Young Businessman Association •Güneş Enerjisi Sanayicileri ve Endüstri (TÜGİAD) Derneği •Egean Industrialist & Businessman Clean Energy Foundation (TEMEV) Association (ESİAD) 16 Members of NPVTP of Turkey (Cont.) Private Firms (19) • AGS Energy & Systems. Co. • Lodos Teknich • Airfel Co. • Mavisis Co. • Aneltech Co. • Motif Proje İnş. Ltd. Şti. • Batıçim Energy Elektricity Production Co. • MTB Energy Ltd. Co. • Enisolar Ltd. Co. • Nurol Teknoloji Co. • Envy Energy & Environment Investments Co. • Orbit Müh. Ltd. Co. • GEO Ltd. Co. • Turkish Bottel & Glass Factories Co. • Girasolar Ltd. Co. • Vestel Dijital Co. • İnci Car Battery Co. Municipalities (1) • Antalya City Municipality Finance Institutions (1) • Turkish Development Bank & Co. 17 NPVTP Web page: www.trpvplatform.org The Objectives of NPVTP: • Objective 1: Creating contact points in decision making bodies of private/public/international research institutions and industry organizations. • Objective 2: Determining technical and non-technical handicaps arises in PV power system applications and suggesting solutions. • Objective 3: Pursuit financial support opportunities for starting national or international PV technology partnerships. • Objective 4: Defining the possible national and international R&D and practice priorities on cost reduction of PV power systems. • Objective 5: Collecting data on status of PV systems in Turkey. • Objective 6: In situ testing and analyzing of selected PV power systems installed in the country. Some of work packages related to OECD-IEA-PVPS activities: Execution of membership and representation preparations of OECD-IEA-PVPS. Attendance in Executive Committee (ExCo) meetings of IEA-PVPS. Attendance in IEA-PVPS. “Task 1” meetings. Preparation of National Survey Report for Turkey as required in IEA PVPS Task 1. Preparation of IEA PVPS Annual Report for Turkey. • • Create inventory of installed PV power systems in Turkey. Listing of public/private institutions related to PV power systems and taking inventory of installed systems. Updating PVPS inventory quarterly by contacting institutions NPVTP, PV Road Map Meeting of Turkey: 2-3 Oct./2009 TUBITAKTÜSSİDE/GEBZE-Kocaeli 51 proposals created. 21 2. Middle East Technical University (METU) - ANKARA (Prof. Dr. Rasit TURAN, Physics Dept.) Si Crystal wafer production facilities at METU METU-MEMS 4" and 6" Si wafer production by slicing of bulk product & quality test facilities Joint project in collaboration with NUROL Technologies Company to develope a self technology produce Si wafers from “Ingot to Cells”. 23 3. Mugla University-MUGLA (Prof. Dr. Sener Oktik, Physics Dept.) University, Rectoriate Building, (Total capacity in campus 100 kW) Not yet production facilities, research laboratories under construction. 4. Gazi University, ANKARA (Prof. Dr. Suleyman Ozcelik, Physics Dept.) Phone: + 90 312 202 1242, [email protected] Si % Thin Film Photo Voltaics, Research on production technologies 5. ISTANBUL Technical Univ., Energy Insdtitute, (Prof. Dr. Altug Sisman) Renewable Energies Technology Group recently formed.; Aims on Photo Voltaic Technologies, but not yet any project works. İTÜ Enerji Enstitüsü, Ayazağa Kampüsü, 34469 Maslak İSTANBUL Phone.+90 212 285 39 37 Fax.+90 212 285 38 84 e-posta: [email protected] 6. TUBITAK Marmara Research Center, Energy Institute, Gebze, KOCAELI, Dr. Mustafa Tiris) Hydepark, 12 kW: in TÜBİTAK-Marmara Research Center, GEBZE (near Istanbul) COMPANIES: 1. Aneltech Co., Istanbul 25 kW 2. NUROL TECHNOLOGIES Co., ANKARA Ceramics Surface Treatment Foundry Phone: +90312 278 0278 [email protected] www.nurolteknoloji.com 3. GIRASOLAR Ltd. Co., IZMIR Ege Serbest Bölgesi, Gaziemir IZMIR, Phone, : 0232 - 251 19 90 PV-Wind Turbine–Oil Generatör Reactor, 18 kW in a small isolated island og south east Aegean,Kızılada, Fethiye-Muğla 4. DATA-TSP Ltd. Co., IZMIR Produce currently 4 ranges of photovoltaic solar panels : - 200Wp , 210Wp, 220Wp, 230Wp 10006 Sok. No: 74 A.O.S.B Çigli IZMIR, 0090 232 328 00 96 Fax : 0090 232 376 84 14 [email protected] GEO Ltd., İzmir 1 kW BATIENERGY Co. – Burdur 2 kW 1 kW, Kocaeli Üniversitesi. Assoc. Prof. Engin Ozdemir Airfel Co., İstanbul, 10 Kw 2 kWp Street Lamps in Aegean Island-Gökçeada NOVEL PHOTOVOLTAIC TECHNOLOGIES DYE SENSITIZED SOLAR CELLS – DSSC Nano-”Molecular” Technology Function of a Solar Cell Based On Organic Dyes e e e e e e Tee Ce Oe e e e e e e CB S*/S+ 3,7eV ELEKTROLYTE (I-/I3-) 4,2eV EF TiO2 V=Voc PDI e 4,85 eV 6,1eV e 7,4eV e VB S/S+ e Counter electrode e e e e 4,7eV e e e e e e e e e e e Re-load h PDI/PMI; Ered=-1.05 V, Eox=1.25 V, Band gap=2.3 V, PDI; HOMO=5.9 eV, LUMO=3.6 eV (vs. Vacuum) TiO2; LUMO=4.2 eV 2 points and 10 points hole DSSC module after the dye, constructed at EGE-Solar E. I.. The difference between early module and last module is that using two points hole and ten points hole. We use to two points hole to prevent holes opening and electrolyte leakage and damage in the long term . 37 2007 DSSC PANEL DSSC Module, 3% DSSC Panel Produce 25 W/m2 This work presents that visible light soaking alone is not a dominant stress factor (use light soaking 2,5 sun equivalent intensity). Separation between the effects of the stresses of visible light soaking, UV illumination and thermal treatment on long term stability is possible in Dye Sensitized Solar Cells (DSSC). UV stability has been achieved by using MgI2 as additive to the electrolyte. 39 Best stability result (efficiency) achieved so far with thermal ageing at 60 and 85o C without light soaking .The electrolyte in the 60o C test is based on dimethylpropyl imidazolium iodide (DMPII), LiI, I2, TBP and pripionitrile. In the 85o C test the electrolyte also contained Mg I2 , in the following compositions: 1.5 M hexylmethylimidazolium iodide (HMII), 0.12 M Mg I2 , 0,6 M TBP in propionitrile (PN) solvent. Thermal stress appears on of the most critical factors determining the long term stability of nc-DSC and is strongly related to the chemical composition of electrolyte solvents and additives. A minor decrease in performance of initially 5.5% solar efficient cells has been found after 2000 h at 600 C without light soaking; After 900 h ageing at 850 C a decrease of 30% in maximum power has been observed; After 3400 h of combined thermal stress and continuous light soaking (450 C 1 Sun equivalent) good stability with 15% decrease in maximum power can be demonstrated. 40 The developed large area module has realized a panel configuration (1190 mm x 840 mm ) consisting of an array of 16 cells (410mm x 140 mm). They expect this will be the nextgeneration solar cell. A developed single and continuous screen printing process to fabricate the electrode elements such as the current collecting grid, the insulating layer the power generation layer brings DSSC technology even closer to commercial applications. Fig. 5. Exterior view of the module panel of DSSC developed by Fujikura. 41 Upscale DSSC size to commercial size, their group was involved in developing a commercial DSC panel, which could show the industrial way and prospect. The DSSC panels that have 500 W power in total were used in a primary power-station and were tested in situ during running every day. The performance of DSC panel has no dramatic decrease in running during the past 354 days (in case of no electrolyte leak and damage) Fig. 6. Picture of 500 W DSSC primary power-station. 42 Fig. 10. Photo of DSC module glass facade demonstrator as presented at the Fraunhofer booth during the 22nd European Photovoltaic Solar Energy Conference, Milano, Italy2007.(200 cm x 60 cm ) 43 One advantage of dye solar cell (DSC) modules is the combination of photovoltaic(PV) solar electricity with decorative aspects. Their report on the recent results achieved in the frame of the German project ColorSol. The project focuses on the application field of buildingintegrated PVs ( facades, PVglazing, etc. ). Prototypes of glass facade elements (70cm x 200cm) have been developed which consist of several serially inter connected DSC modules each with a size of 30 cm x 30 cm. Fig. 11. Photo of a semi-transparent, glass frit-sealed dye solar module Mounted on an outdoor test stand at the Fraunhofer ISEGermany. 44 Fig. 13. Full size 2 x 32-cell proto type modules in roof station. Dye sensitized solar cells (DSSCs) area low-cost alternative to photovoltaic silicon and thin film cells on the basis of materials (bulk titania powder in place of high purity semi conductors such as silicon) and process costs. 45 Semiconducting and Metallic Polymers Functional InkPlastic Plastic Substrate for Organic based Solar Cells AVUSTRALIA DYESOL and İNGİLTERE G24 INNOVATIONS FİRMs www.g24i.com www.dyesol.com Solar Car Güneş Arabası 2006 ADRESS: Ege Universlty, Lojmanlar Kampusu Solar Energy Institute,35100 Bornova IZMIR / TURKIYE Tel.: +90-232-388 60 23 -25 - 28 Fax: +90-232-388 60 27 http://eusolar.ege.edu.tr