PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar...
Transcript of PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar...
![Page 1: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/1.jpg)
![Page 2: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/2.jpg)
To provide clean and green energy efficiently.
To integrate solar power to existing power grid.
To cater to energy needs of overall community.
PROJECT DESIGN AND ENGINEERING:
o Site survey and project assessment
o Blueprint designing
o System components supply management
o Construction and construction management
o Building preparation
o Grounds preparation
o Engineering work and Consultation
o Plans substructure
o Grid connection assistance and commissioning
o Testing and After Sales Service
![Page 3: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/3.jpg)
PROJECT FINANCING
o Project financing introduction and consultation
o Project financing solutions proposal
o Project financials projections and analysis
o Global financial resources connection and recommendations
PROJECT OPERATION & MANAGEMENT
o Project operation monitoring
o Project full-time supervision
o Management of maintenance contracts
o Visual operation
o System performance testing
o Emergency purpose
o Financial and energy reports
o Performance evaluation and optimization
MONU MODULES
QSAR I & II- The Top Performer
Products Features:
- Cell type: Monocrystalline
- Module Efficiency: up to 17.24%
- Average Power rating: up to 320 Wp
![Page 4: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/4.jpg)
- Available with: 60 or 72 cells (156*156 mm each)
Product Advantage:
- High Power output as a result of narrow distribution of conversion efficiency - Less mismatch due to concentrated current distribution
STANDARD MONO SERIES- The Energizer
Product Features: - Cell type: monocrystalline - Module efficiency: up to 16.06% - Average Power Rating: up to 300 Wp - Available with: 60 or 72 cells (156*156 mm each) Super Black Modules: - Pure black appearance - Ideal for High-end Rooftop application and building integration - anti-glare 7200 pa Surface load capacity - 40mm frames
- for module use e.g. in snowy regions
POLY MODULES
WARATAH – THE “POLY PEAK PERFORMER” Product Features: - Cell type: polycrystalline - Module efficiency: up to 16.32% - Average Power rating: up to 310 Wp - Available with: 60 or 72 cells (156*156 mm each) - Available products:
![Page 5: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/5.jpg)
STANDARD POLY SERIES- The “4-Wheel Drive” Products Features - Cell type: polycrystalline - Module efficiency: up to 16.01% - Average power rating: up to 310 Wp - Available with 60 or 72 cells (156*156 mm each) - Available products: Super Black Modules: - Pure Black appearance, including welding strips - Ideal for high-end rooftop applications and building integration - Anti-glare
7200 Pa Surface load capacity - 40mm Frames - For module use e.g in snowy regions
SOLAR’s solar cells offer high efficiencies and good reliability. Advanced PECVD film technique is
used to ensure dark blue silicon nitride and good colour uniformity. Furthermore, the usage of high-
quality metal paste to make electrodes and the back surface ensures good conductivity as well as
high peel strength and electrode soldering.
5-BUSBAR CELL: SOLAR S156-5BB(M2)
Product Features:
- Cell type: monocrystalline - Cell efficiency: up to 20.1%
- Average power rating: up to 4.92W - Dimensions: Format 156.75X156.75mm 0.5mm, thickness 200mm 20mm - Front side (-): 0.8mm busbars (silver), blue anti-reflection coating (silicon nitride) - Back side (+): 1.6mm soldering pads (silver), back surface field (aluminum) - Data Sheet: SOLAR-S156-5BB-(M2)
![Page 6: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/6.jpg)
5-BUSBAR CELL: SOLAR-S156-5BB(Dia210) Procedure features - Cell type: polycrystalline - Cell efficiency: up to 20.7% - Average power rating: up to 5.03W - Dimension: Format 156x156mm ±0.5mm, thickness 200 µm ±20µm - Front side (+): 0.8mm busbars (silver), blue anti-reflection coating (silicon nitride) - Back side (+): 1.93mm wide soldering pads (silver), back surface field (aluminum) - Data Sheet: SOLAR-S156-5BB (Dia210)
WARRANTY & INSURANCE 10 YEAR PRODUCT GUARANTEE
SOLAR warrants the product(s) to be free from serious visual defects in materials and workmanship defined by IEC61215, IEC61730 and UL1703 or from defects causing abnormal power output under normal application and use, installation and service conditions as specified in SOLAR's installation manual for a period of ten years from the warranty start date. 25 Year Power Output Guarantee Under normal application, use, installation and service condition (as specified in SOLAR's installation manual) SOLAR guarantees the following for a period of 25 years after the warranty start date: SOLAR's polycrystalline products shall not have an initial power output of less than 97.5 % of the minimum output power in SOLAR's product datasheet in the first year, thereafter the loss of output power shall not exceed 0.7% per year, meaning that the guaranteed performance after 25 years shall be at the last 80.7%. Monocrystalline products shall not have an initial power output of less than 96.5% of the minimum output power in SOLAR's product datasheet in the first year, thereafter the loss of output power shall not exceed 0.68% per year, meaning that the guaranteed performance after 25 years shall at be at least 80.18%
SOLAR's linear performance warranty for SOLAR's linear performance warranty for polycrystalline modules monocrystalline modules
![Page 7: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/7.jpg)
QUALITY CONTROL
Quality is everything at SOLAR. From the start of production until today, we have promoted the establishment and operation of high-quality facilities and production processes. Our manufacturing facilities are certified according to ISO 9001, ISO 14001 and OHSAS 18001. The quality control systems are effectively, comprehensively and strictly enforced at every single production level - from material supply, cell and module production to the shipment of the finalized products. As a vertically integrated company, SOLAR has direct influence on the product quality along the entire value chain.
MATERIAL SUPPLY To ensure product quality from the beginning on, external suppliers and their products are subject to a strict quality assurance process, including laboratory testing to ensure product compatibility and reliability and on-site assessment. Following this, continuous feedback and corrections ensure the quality and stability of our raw material supply.
CELL PRODUCTION At the beginning of the cell production process, the appearance and performance of the silicon wafers, the primary material used in solar cells are inspected regarding visual appearance, thickness distribution, saw marks, deflection, electrical conductivity, resistance and service life. Following this, various inspections are conducted during the entire cell production process. The cells' weight, reflection, structuring, area and edge resistance as well as layer thickness are checked. Moreover, the refractive index, reflectance, fingerprint impressions are tested and the cells sorted according to electrical voltage. Temperature coefficients, light-induced degradation, soldering and torque strength of the connecting tracks are also subject to inspection.
MODULE PRODUCTION In the production process, an income inspection of all materials bought for use in solar modules is conducted, e.g. backsheet covers, toughened glass, silica gel, junction boxes, frames, soldering powder and EVA sheets. The affixing, ordering and fitting of cells in the module are evaluated during module production, as well as the sheet lamination through EL measurement before and after the lamination process. After framing the junction box fittings are tested for secure fixation. After completing, the current-voltage-ratio and the visual appearance of the module are inspected. Final packaging and shipping inspections are performed before our products are packed and ready to leave the factory. Our staff works in strict conformity with product specification requirements at every step in the production process, engage in self- and cross inspections and perform random sample testing. We have also set up a module reliability inspection system, which tests the reliability of all the supplementary parts and materials for our modules. Furthermore, annual third-party testing is conducted by TUV and ISE.
![Page 8: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/8.jpg)
SOLAR PROJECT In addition to its module and cell production, SOLAR is supporting the realization of large-scale PV projects in close cooperation with industry partners. By taking the lead on the projects, securing bridge financing and coordinating project developers and EPCs, SOLAR makes sure projects get built. The first example of these activities are two 5 MW projects in Cornwall, UK, which were realized with the support of Belectric as EPC, employing SOLAR's high efficient polycrystalline modules. Central Europe Kaiseresch, Germany Module type: SOLAR 250/255-60P System size: 9.4 MWp System type: Ground-mounted Date of completion: 2012 Langenhahn, Germany Module type: SOLAR 250/255-60P System size: 5.1 MWp System type: Ground-mounted Date of completion: 2012 Sassenburg/Wolfsburg-Grifhorn, Germany Module type: SOLAR 240/245/240-60P System size: 7.2 MWp System type: Ground-mounted Date of completion: 2012
![Page 9: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/9.jpg)
Friedland, Germany Module type: SOLAR 235-60P System size: 3.4 MWp System type: Ground-mounted Date of completion: 2011 Barby, Germany Module type: SOLAR 235-60P System size: 4.3 MWp System type: Ground-mounted Date of completion: 2011 Rathenow, Germany Module type: SOLAR 235-60P System size: 2.2 MWp System type: Ground-mounted Date of completion: 2011 Sonnewalde, Germany Module type: SOLAR 235-60P System size: 1.0 MWp type: Ground-mounted Date of completion: 2011 Parsau, Germany Module type: SOLAR 235-60P System size: 1.5 MWp System type: Ground-mounted Date of completion: 2011
![Page 10: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/10.jpg)
Zernitz-Lohm, Germany Module type: SOLAR 235-60M System size: 2.7 MWp System type: Ground-mounted Date of completion: 2011 Kruckow, Germany Module type: SOLAR 235-60M System size: 1.9 MWp + 3.5 MWp System type: Ground-mounted Date of completion: 2011 Demmin, Germany Module type: SOLAR 235-60P System size: 1.3 MWp System type: Ground-mounted Date of completion: 2011 Blösa, Germany Module type: SOLAR 235-60P System size: 863 kWp System type: Ground-mounted Date of completion: 2011
![Page 11: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/11.jpg)
Prüzen, Germany Module type: SOLAR 195-72M System size: 357 kWp System type: Rooftop Date of completion: 2011 Kronprinzenkoog, Germany Module type: SOLAR 185-72M / SOLAR 190-72M System size: 1.0 MWp System type: Ground-mounted Date of completion: 2010
Petzenbach, Germany Module type: SOLAR 235-60M System size: 2.1 MWp System type: Ground-mounted Date of completion: 2010 Sieversdorf, Germany Module type: SOLAR 175-72M / 230-60P System size: 666 kWp System type: Rooftop Date of completion: 2010 Losten, Germany Module type: SOLAR 230-60 P System size: 1.5 MWp System type: Rooftop Date of completion: 201
![Page 12: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/12.jpg)
Kruckow, Germany Module type: SOLAR 185-72M /190-72M System size: 1.5 MWp System type: Rooftop Date of completion: 2010 Dessau, Germany Module type: SOLAR 230-60P System size: 362 kWp System type: Rooftop Date of completion: 2010 Roga, Germany Module type: SOLAR 175-24M System size: 182 kWp System type: Rooftop Date of completion: 2010 Burkau, Germany Module type: SOLAR 240-60P/ 250-60M System size: 1 MWp System type: Rooftop Date of completion: 2010 Corsica, France Module type: SOLAR 230-60P / 235-60P System size: 3.5 MWp System type: Ground-mounted Date of completion: 2011
![Page 13: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/13.jpg)
Southern France Module type: SOLAR 230-60P System size: 4.6 MWp System type: Greenhouses Date of completion: 2011 Launceston, UK Module type: SOLAR 250-60P System size: 30 + 12 kWp System type: Roof-top Date of completion: 2014 Launceston, UK Module type: SOLAR 250-60P System size: 30 + 12 kWp System type: Roof-top Date of completion: 2014 Causilgey, UK Module type: SOLAR 25060P System size: 5 MWp System type: Ground-mounted Date of completion: 2013
Causilgey, UK Module type: SOLAR 25060P System size: 5 MWp System type: Ground-mounted Date of completion: 2013
![Page 14: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/14.jpg)
Sredetz, Bulgaria Module type: SOLAR 245-60P System size: 47 kWp System type: Roof-top Date of completion: 2011 Eastern Europe Plovdiv, Bulgaria Module type: SOLAR 235-60P / 240-60P System size: 5.0 MWp System type: Ground-mounted Date of completion: 2012 Mokresh, Bulgaria Module type: SOLAR 235-60P / 240-60P System size: 2.0 MWp System type: Ground-mounted Date of completion: 2011 Sofia, Bulgaria Module type: SOLAR 235-60P System size: 1.2 MW SOLAR (total 4.1 MW) System type: Ground-mounted Date of completion: 2011 Orlova Mogila - Dobrich, Bulgaria Module type: SOLAR 230-60P System size: 1.1 MWp System type: Ground-mounted Date of completion: 2011
![Page 15: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/15.jpg)
Uhersky, Czech Republic Module type: SOLAR 270-72P System size: 10.2 MWp System type: Ground-mounted Date of completion: 2010 Senica, Slovakia Module type: SOLAR 235-60P System size: 4 MWp System type: Ground-mounted Date of completion: 2011 Funa, Slovakia Module type: SOLAR 235-60P System size: 8.0 MWp System type: Ground-mounted Date of completion: 2010 Ljubljana, Slovenia Module type: SOLAR 250-60M System size: 20 kWp System type: Roof-top Date of completion: 2012 Italy Module type: SOLAR 250-60M System size: 51 kWp System type: Ground-mounted Date of completion: 2012
![Page 16: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/16.jpg)
Montevarchi, Italy Module type: SOLAR 240-60M System size: 1 MWp System type: Ground-mounted Date of completion: 2010 Zaragoza, Spain Module type: SOLAR 240-60P System size: 150 kWp System type: Ground-mounted Date of completion: 2012 Madeira, Portugal Module type: SOLAR 230-60M System size: 8 kWp System type: Roof-top Date of completion: 2011 Asfa School, Istanbul-Üsküdar, Turkey Module type: SOLAR 250-60P System size: 66 kWp System type: Rooftop & facade Date of completion: 2013 Loiza, Puerto Rico Module type: SOLAR 245-60P/ 250-60P System size: 1.5 MW System type: Ground-mounted Date of completion: 2013
![Page 17: PROJECT DESIGN AND ENGINEERING · To provide clean and green energy efficiently. To integrate solar power to existing power grid. To cater to energy needs of overall community. PROJECT](https://reader035.fdocuments.us/reader035/viewer/2022071102/5fdb0c7b4342b06de73c13e5/html5/thumbnails/17.jpg)
Shedd Aquarium, Chicago, IL, USA Module type: SOLAR 290-72P System size: 264 kWp System type: Roof-top Date of completion: 2013 Railway station Nanjing, China Module type: SOLAR 200-72M / 250-60M S ystem size: 10.7 MWp System type: Rooftop Date of completion: 2011 Singapore Module type: SOLAR 240-60P System size: 58 kWp System type: Rooftop Date of completion: 2011