Pvsol Software Download

1 SANTRAL ÜNİTELERİNİN PERFORMANS EĞRİLERİ (PVSOL)

2 İşletme Sega Solar İvogsan Ağaç İşleri Sanayi Sitesi 1354.cd 1358.sk Ankara İletişim: Şahin Onur HÜKÜMEN Telefon: Faks: E-posta: Müşteri Mersin Turkey Proje Adres: Devreye koyma tarihi: Proje tanımı: Panel Gücü : 265W Panel Açısı : 29 Dizi Aralığı : 3 m Panel Sayısı : 2800 DC Güç : 2800 x 0,265 = 742 kwp Invertor : 22x30+2x20 = 700 kwe Yıllık Gölge Kaybı : %0,6 Yıllık Tahmini Üretim : kwh/yıl

3 Teklif no.: ORHANKOYGES Teklif tarihi: Operatör: Sahin Onur HUKUMEN İşletme : Sega Solar 3D, Şebekeye bağlı PV sistemi - Tam besleme İklim bilgileri PV jeneratör performansı PV jeneratör yüzeyi Sayı PV modülleri Sayı ınvertörler PV*SOL premium 7.5 (R4) Valentin Software GmbH antalya_orhankoy_pvsol ( ) 742 kwp 4.597,8 m² Sayfa 2 / 8

4 Teklif no.: ORHANKOYGES Teklif tarihi: Operatör: Sahin Onur HUKUMEN İşletme : Sega Solar Kazanç PV jeneratör enerjisi (AC şebekesi) Özel yıllık gelir Sistem kullanım oranı (PR) Gölgeleme zararının hesaplanması Kaçınılan CO emisyonu kwh 1.627,14 kwh/kwp 82,2 % 0,6 %/yıl kg/yıl Sonuçlar Valentin Software GmbH. şirketi tarafında matematiksel model hesaplama sonucu elde edilmiştir (PV*SOL Algoritmaları). Güneş enerji sisteminin gerçek kazanç sonuçları hava şartları, modüllerin ve invertörlerin etkinlik oranı ve de başka etkenler sebebiyle sapmalar olabilir. PV*SOL premium 7.5 (R4) Valentin Software GmbH Sayfa 3 / 8

5 Teklif no.: ORHANKOYGES Teklif tarihi: Operatör: Sahin Onur HUKUMEN İşletme : Sega Solar Sistemin kurulumu İklim bilgileri Sistem türü antalya_orhankoy_pvsol 3D, Şebekeye bağlı PV sistemi - Tam besleme PV jeneratörü Modül yüzeyi Isim PV modülleri* Üretici Eğim Oryantasyon Montaj durumu PV jeneratör yüzeyi Area Southeast 2800 x CHSM6610P-265 ASTROnergy (Chint Solar) 29 Güney (164 ) yükseltilmiş boş alan 4.597,8 m² Resim: Area Southeast için 3D planı Zararlar İnvertör Modül yüzeyi İnvertör 1* Üretici Ara bağlantı İnvertör 2* Üretici Ara bağlantı Area Southeast 22 x TRIO-27,6-TL-OUTD Power-One MPP 1: 3 x 20 MPP 2: 3 x 20 2 x TRIO-20,0-TL-OUTD Power-One MPP 1: 2 x 20 MPP 2: 2 x 20 AC şebekesi Fazların sayısı Şebeke gerilimi (tek fazlı) Güç faktörü (cos phi) PV*SOL premium 7.5 (R4) Valentin Software GmbH V +/- 1 Sayfa 4 / 8

6 Teklif no.: ORHANKOYGES Teklif tarihi: Operatör: Sahin Onur HUKUMEN İşletme : Sega Solar Kablo Toplam kayıp 3% * İlgili üreticilerin garanti şartları geçerlidir PV*SOL premium 7.5 (R4) Valentin Software GmbH Sayfa 5 / 8

7 Teklif no.: ORHANKOYGES Teklif tarihi: Operatör: Sahin Onur HUKUMEN İşletme : Sega Solar Simülasyon sonuçları PV sistemi PV jeneratör performansı Özel yıllık gelir Sistem kullanım oranı (PR) Gölgelemeden dolayı oluşan kazanç kaybı 742 kwp 1.627,14 kwh/kwp 82,2 % 0,6 %/yıl Şebeke besleme Şebeke besleme ilk yıl içinde (dahil modül düşüşü) Stand-by tüketimi Kaçınılan CO emisyonu kwh/yıl kwh/yıl 316 kwh/yıl kg/yıl Resim: Kazanç tahmini PV*SOL premium 7.5 (R4) Valentin Software GmbH Sayfa 6 / 8

8 Teklif no.: ORHANKOYGES Teklif tarihi: Operatör: Sahin Onur HUKUMEN İşletme : Sega Solar PV sistemi enerji bilançosu Toplam yatay ışın 1.790,1 kwh/m² Standart spektrumdan sapma -17,90 kwh/m² -1,00 % Modül düzeyinin oryantasyonu ve eğilimi 200,16 kwh/m² 11,29 % Ufuk çizgisi tarafından yaygın ışının gölgelenmesi Modül yüzeyine yansıma Modül üzerine toplam ısın 0,00 kwh/m² 0,00 % -80,28 kwh/m² -4,07 % 1.892,1 kwh/m² 1.892,1 kwh/m² x 4597,85 m² = ,5 kwh PV toplam ışın Kirlenme ,5 kwh 0,00 kwh 0,00 % STC dönüştürme (Modül nominal etkinlik oranı 16,19 %) ,32 kwh -83,81 % PV nominal enerji ,2 kwh modüle özgü kısmı gölgeleme ,61 kwh -1,06 % Düşük ışık davranışı ,79 kwh -1,54 % Modülün nominal sıcaklık sapma ,04 kwh -4,98 % -554,20 kwh -0,04 % ,81 kwh -2,00 % ,33 kwh -0,15 % Diyotlar Mismatch (üretici bilgileri) Mismatch (ara bağlantı / gölgeleme) İnvertör düzenleyici olmadan PV-enerji (DC) MPP-gerilim alanı sebebiyle düzenleme ,4 kwh -4,98 kwh 0,00 % Maks. DC Akımı sebebiyle düzenleme 0,00 kwh 0,00 % Maks. DC Performans sebebiyle düzenleme 0,00 kwh 0,00 % -101,27 kwh -0,01 % ,46 kwh -0,10 % Maks. AC Performans/cos phi sebebiyle düzenleme MPP Adaptasyon PV-enerji (DC) ,7 kwh WR Girişinde bulunan enerji ,7 kwh Giriş ve nominal gerilim arasındaki sapma ,45 kwh -0,15 % DC/AC dönüşümü ,61 kwh -2,17 % Stand-by tüketimi -316,08 kwh -0,03 % ,76 kwh -3,00 % Toplam kablo kayıpları Standby kullanımı hariç PV enerji (AC) ,8 kwh Şebeke besleme ,4 kwh PV*SOL premium 7.5 (R4) Valentin Software GmbH Sayfa 7 / 8

9 Teklif no.: ORHANKOYGES Teklif tarihi: Operatör: Sahin Onur HUKUMEN İşletme : Sega Solar PV*SOL premium 7.5 (R4) Valentin Software GmbH Sayfa 8 / 8

10 Solar inverters ABB string inverters TRIO-20.0/27.6-TL-OUTD 20 to 27.6 kw The three-phase commercial inverter offers more flexibility and control to installers who have large installations with varying aspects or orientations. The dual input section containing two independent Maximum Power Point Tracking (MPPT), allows optimal energy harvesting from two sub-arrays oriented in different directions. The TRIO features a high speed and precise MPPT algorithm for real power tracking and improved energy harvesting. High efficiency at all output levels Flat efficiency curves ensure high efficiency at all output levels ensuring consistent and stable performance across the entire input voltage and output power range. This device has an efficiency rating of up to 98.2%. The very wide input voltage range makes the inverter suitable for installations with reduced string size. In addition to its new look, this inverter has new features including a special built-in heat sink compartment and front panel display system. The unit is free of electrolytic capacitors, leading to a longer product lifetime. Highlights True three-phase bridge topology for DC/AC output converter Transformerless topology Each inverter is set on specific grid codes which can be selected in the field Detachable wiring box to allow an easy installation Wide input voltage range Electrolyte-free power converter to further increase the life expectancy and long term reliability

11 Additional highlights Integrated string combiner with different options of configuration which include DC and AC disconnect switch in compliance with international standards (-S2, -S2F and -S2X versions) Natural convection cooling for maximum reliability Outdoor enclosure for unrestricted use under any environmental conditions Capability to connect external sensors for monitoring environmental conditions Availability of auxiliary DC output voltage (24 V, 300 ma) Technical data and types Type code TRIO-20.0-TL-OUTD TRIO-27.6-TL-OUTD Input side Absolute maximum DC input voltage (Vmax,abs) 1000 V Start-up DC input voltage (Vstart) 430 V (adj V) Operating DC input voltage range (Vdcmin...Vdcmax) 0.7 x Vstart 950 V (min 200 V) Rated DC input voltage (Vdcr) 620 V Rated DC input power (Pdcr) W W Number of independent MPPT 2 Maximum DC input power for each MPPT (PMPPTmax) W W DC input voltage range with parallel configuration of MPPT at Pacr V V DC power limitation with parallel configuration of MPPT Linear derating from max to null [800 V VMPPT 950 V] W [480 V VMPPT 800 V] W [500 V VMPPT 800 V] DC power limitation for each MPPT with independent the other channel: Pdcr W the other channel: Pdcr W configuration of MPPT at Pacr, max unbalance example [350 V VMPPT 800 V] [400 V VMPPT 800 V] Maximum DC input current (Idcmax) / for each MPPT (IMPPTmax) 50.0 A / 25.0 A 64.0 A / 32.0 A Maximum input short circuit current for each MPPT 30.0 A 40.0 A Number of DC inputs pairs for each MPPT 1 (4 in -S2X, -S2F, -S1J, -S2J versions) 1 (5 in -S2X and -S2F versions, 4 in -S1J and -S2J) DC connection type Tool Free PV connector WM / MC4 (Screw terminal block on standard and -S2 versions) 5) Input protection Reverse polarity protection Yes, from limited current source Input over voltage protection for each MPPT - varistor Yes Input over voltage protection for each MPPT - plug In modular surge arrester (-S2X, -S1J and -S2J versions) -S2X: Type 2; -S1J, -S1J: Type 1+2 Photovoltaic array isolation control According to local standard DC switch rating for each MPPT (version with DC switch) 40 A / 1000 V Fuse rating (versions with fuses ) 15 A / 1000 V Output side AC grid connection type Three-phase 3W+PE or 4W+PE Rated AC power ) W W Maximum AC output power W 3) W 4) Maximum apparent power (Smax) VA VA Rated AC grid voltage (Vac,r) 400 V AC voltage range V 1) Maximum AC output current (Iac,max) 33.0 A 45.0 A Contributory fault current 35.0 A 46.0 A Rated output frequency (fr) 50 Hz / 60 Hz Output frequency range (fmin...fmax) Hz / Hz 2) Nominal power factor and adjustable range > 0.995, adj. ± 0.9 with Pacr =20.0 kw, > 0.995, adj. ± 0.9 with Pacr =27.6 kw, ± 0.8 with max 22.2 kva ± 0.8 with max 30 kva Total current harmonic distortion < 3% AC connection type Screw terminal block, cable gland PG36 Output protection Anti-islanding protection According to local standard Maximum external AC overcurrent protection 50.0 A 63.0 A Output overvoltage protection - varistor 4 Output overvoltage protection - plug in modular surge arrester (-S2X version) 4 (Type 2) Operating performance Maximum efficiency (ηmax) 98.2% Weighted efficiency (EURO/CEC) 98.0% / 98.0% Feed in power threshold 40 W Night consumption < 0.6 W 2 ABB solar inverters Product flyer for TRIO-20.0/27.6-TL-OUTD

12 Block diagram of TRIO-20.0/27.6-TL-OUTD IN1(+) + IN1A(+) IN1B(+) IN1C(+) + MPPT 1 (DC/DC) Bulk caps Inverter (DC/AC) IN1 IN1D(+) *IN1E(+) IN1A(-) IN1B(-) IN1 IN1 Line filter Grid parallel relay L1 -S2 version L1 L1, S L1 -S2X version L1, S IN1(-) - IN1C(-) IN1D(-) *IN1E(-) - L2 L3 L2 L3 L2, S L3, S L2 L3 L2, S L3, S Current reading N N N, S N N,S IN2(+) + IN2A(+) IN2B(+) IN2C(+) OVP monitoring + MPPT 2 (DC/DC) PE PE PE IN2D(+) *IN2E(+) IN2 IN2A(-) IN2 IN2 IN2(-) - IN2B(-) IN2C(-) IN2D(-) *IN2E(-) - L1 -S2F version L1, S Current reading L2 L2, S -S2 version OVP monitoring -S2X version DC/DC DSP contr. DC/AC DSP contr. L3 L3, S N N, S PE IN1A(+) * not present on TRIO-20.0-TL Current reading OVP monitoring µp IN1(+) + IN1B(+) IN1C(+) IN1D(+) Control circuit *IN1E(+) IN1(-) IN2(+) IN2(-) IN1 - + IN2 - IN1A(-) IN1B(-) IN1C(-) IN1D(-) *IN1E(-) IN2A(+) IN2B(+) IN2C(+) IN2D(+) *IN2E(+) IN2A(-) IN2B(-) IN2C(-) IN2D(-) *IN2E(-) Current reading IN1 IN2 PT 100 PT mA / V adj mA / V adj ON/OFF EXT Grid standard setting Service or normal PC PMU AN 1 AN 2 IN mode * µp PMU_RS485 PC_RS485 Remote control Alarm + T/R - T/R GND + T/R - T/R GND + R GND N.C N.O C 1 2 Standard version Current reading Wiring box circuit 1 2 INVERTER WIRING BOX -S2F version * not present on TRIO-20.0-TL * an expansion slot for future implementation of new communication systems is available Technical data and types Type code TRIO-20.0-TL-OUTD TRIO-27.6-TL-OUTD Communication Wired local monitoring PVI-USB-RS232_485 (opt.) Remote monitoring VSN300 Wifi Logger Card (opt.), PVI-AEC-EVO (opt.), VSN700 Data Logger (opt.) Wireless local monitoring VSN300 Wifi Logger Card (opt.) User interface Graphic display Environmental Ambient temperature range C / F with derating above 45 C/113 F Relative humidity % condensing Sound pressure level, typical 50 1 m Maximum operating altitude without derating 2000 m / 6560 ft Physical Environmental protection rating IP 65 Cooling Natural Dimension (H x W x D) 1061 mm x 702 mm x 292 mm / 41.7 x 27.6 x 11.5 Weight < 70.0 kg / lbs (Standard version) < 75.0 kg / lbs (Standard version) Mounting system Wall bracket Safety Isolation level Transformerless Marking CE (50 Hz only), RCM Safety and EMC standard EN 50178, IEC/EN , IEC/EN , AS/NZS 3100, AS/NZS , EN , EN , EN , EN CEI 0-21, CEI 0-16, DIN V VDE V , VDE-AR-N 4105, G59/3, C10/11, Grid standard (check your sales channel for availability) EN (not for all national appendices), RD 1699, RD 413, RD 661, P.O. 12.3, AS , AS , BDEW, NRS , MEA, IEC 61727, IEC 62116, Ordinul 30/2013 Available products variants Standard TRIO-20.0-TL-OUTD-400 TRIO-27.6-TL-OUTD-400 With DC+AC switch TRIO-20.0-TL-OUTD-S2-400 TRIO-27.6-TL-OUTD-S2-400 With DC+AC switch and fuse TRIO-20.0-TL-OUTD-S2F-400 TRIO-27.6-TL-OUTD-S2F-400 With DC+AC switch, fuse and surge arrester TRIO-20.0-TL-OUTD-S2X-400 TRIO-27.6-TL-OUTD-S2X-400 1) 4) The AC voltage range may vary depending on specific country grid standard Limited to W for Germany 2) 5) The Frequency range may vary depending on specific country grid standard Optional mating parts 3) Limited to W for Germany Remark. Features not specifically listed in the present data sheet are not included in the product Product flyer for TRIO-20.0/27.6-TL-OUTD ABB solar inverters 3

13 Efficiency curves of TRIO-20.0-TL-OUTD Efficiency curves of TRIO-27.6-TL-OUTD Efficiency [%] Efficiency [%] Vdc Vdc Vdc 90 0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100% % of Rated Output Power Vdc Vdc Vdc 90 0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100% % of Rated Output Power BCD Rev. C EN Support and service ABB supports its customers with dedicated, global service organization in more than 60 countries and strong regional and national technical partner networks providing complete range of life cycle services. For more information please contact your local ABB representative or visit: Copyright 2015 ABB. All rights reserved. Specifications subject to change without notice.

14 For Global Market Datasheet Crystalline PV Module CHSM6610P Series EN ELECTRICAL SPECIFICATIONS STC rated output (Pmpp) Wp Wp Wp Wp 265 Wp PTC rated output (Pmpp) Wp Wp Wp Wp Wp Standard sorted output 0/+5 Wp Warranted power output STC (Pnominal) 245 Wp 250 Wp 255 Wp 260 Wp 265 Wp Rated voltage (Vmpp) at STC V V V V V Rated current (lmpp) at STC 8.20 A 8.27 A 8.33 A 8.39 A 8.46 A Open circuit voltage (Voc) at STC V V V V V Short circuit current (Isc) at STC 8.62 A 8.65 A 8.69 A 8.72 A 8.75 A Module efficiency 14.9% 15.2% 15.5% 15.8% 16.1% Rated output (Pmpp) at NOCT Wp Wp Wp Wp Wp Rated voltage (Vmpp) at NOCT V V V V V Rated current (Impp) at NOCT 6.79 A 6.85 A 6.90 A 6.95 A 7.00 A Open circuit voltage (Voc) at NOCT V V V V V Short circuit current (Isc) at NOCT 7.26 A 7.28 A 7.32 A 7.34 A 7.37 A Temperature coefficient (Pmpp) %/K Maximum system voltage (UL/IEC) 1000 VDC Temperature coefficient (Isc) %/K Number of diodes 6 (or 3) Temperature coefficient (Impp) %/K Maximum series fuse rating 15 A Temperature coefficient (Vmpp) %/K Temperature coefficient (Voc) %/K Normal operating cell temperature (NOCT) 43±2 C 1 Measurement tolerance +/- 3% 2 Estimated 3 For KEMCO certified product only, the official model name is CHSM6610P-245K1/250K1/255K1

15 RELATED PARAMETERS Cell type polycrystalline QUALIFICATION AND LINEAR WARRANTIES Product standard IEC 61215, / UL 1703 Number of cells / cell arrangement 60 / 6 x 10 Extended product warranty 10 years Cells dimension 6 Output decline 3%/year performance Pmpp (STC) 1 st year Packing unit 25 modules Output decline 0.7%/year performance Pmpp (STC) 2 nd~ 25 th years Weight of packing unit 530 kg / 1166 lbs % Linear Performance Wanrranty 97.00% 95.00% MECHANICAL SPECIFICATIONS 90.00% Outer dimensions (L x W x H) 1652 x 994 x 40 mm x x 1.57 in 85.00% 80.00% 80.20% Frame technology Aluminum, silver anodized 75.00% Module composition Glass / EVA / Backsheet (white) Weight (module only) 19.5 kg / 42.9 lbs Front glass thickness 3.2 mm / 0.13 in ARTICLE NUMBER (per panel)-chsm6610p Series Junction box IP rating IP 65 (above) Model Article No. (IEC) Article No. (UL) * Cable length (UL/IEC) 1000 mm / in CHSM6610P Cable diameter (UL/IEC) 12 AWG / 4 mm² CHSM6610P Maximum load capacity 5400 Pa CHSM6610P Fire class C CHSM6610P Connector type (UL/IEC) MC type 4 compatible CHSM6610P * Option: 900(+) mm/600(-) mm for defined projects in advance. MODULE DIMENSION DETAILS Front view Side view Rear view Frame cross section 994 mm/3.261 feet 40 mm/0.131 feet mm x 8.5 mm/ feet x feet 12 mm/ feet 1652 mm/5.420 feet Drainage hole 6-Φ5.5 mm / feet Ground hole 100 mm/0.328 feet 1000 mm/3.281 feet 200 mm/0.656 feet 826 mm/2.710 feet 40 mm/0.131 feet 6-7 mm x 11.5 mm / feet x feet Mounting hole 950 mm/ feet 32 mm/ feet Chint Solar (Zhejiang) Co., Ltd. All rights reserved. Specifications and designs included in this datasheet are subject to change without notice P /

PVSOL by Dr. Valentin EnergieSoftware GmbH is a powerful software tool designed for engineers, architects, and planners who need to design and optimize photovoltaic solar power systems. With PVSOL, users can easily simulate and calculate the performance of solar energy systems in any location, taking into account factors such as shading, weather conditions, and system design.

The software allows users to create detailed 3D models of the planned solar energy system and provides accurate simulations of its performance. This includes calculations of power output, energy yield, and financial performance metrics such as return on investment (ROI) and payback period.

PVSOL offers a user-friendly interface, with intuitive tools for designing the photovoltaic system, selecting the best solar panels and inverters for the project, and simulating the performance of the solar energy system over time. The tool also provides detailed reports with comprehensive data analysis and visualizations to help users make informed decisions.

Overall, PVSOL is a reliable and efficient solution for designing optimized photovoltaic solar power systems based on accurate simulations and calculations.

Genel bakış

PVSOL kategori (2) Dr. Valentin EnergieSoftware GmbHtarafından geliştirilen bir Shareware yazılımdır.

Geçen ay bizim istemci uygulama UpdateStar kullanıcılar tarafından güncelleştirmeleri 63 kez kontrol.

PVSOL 3.0.3 18.02.2008 Tarihinde yayımlanan, be. O başlangıçta bizim veritabanı üzerinde 29.10.2007 eklendi.

PVSOL aşağıdaki işletim sistemlerinde çalışır: Windows.

PVSOL bizim kullanıcıların henüz derecelendirilmiş değildir.