Upload
srinathhimanshu
View
221
Download
0
Embed Size (px)
Citation preview
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
1/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
All the information given above is for indicative purpose only & is subject to changes due to site & design requirements during detailed engineering
1 | P a g e
List of contents
1. Company Profile .......................................................................................................................................................... 02
Our Esteemed And Valuable Customers ................................................................................................................. 03
2. Executive Summary ..................................................................................................................................................... 05
3. Project Site Details ...................................................................................................................................................... 06
4. System Overview ......................................................................................................................................................... 08
5 Design Parameters ....................................................................................................................................................... 09
6.Comprehensive Detail .................................................................................................................................................. 10
7. System Configuration10
8. Bill of Material ............................................................................................................................................................. 11
9. Solar PV Power plant Details ...................................................................................................................................... 12
9.1 Solar Photovoltaic Modules ...................................................................................................................................... 12
9.2 Mounting Structure ................................................................................................................................................... 13
9.3 Inverter ...................................................................................................................................................................... 15
9.4 Distribution Boards ................................................................................................................................ .................. 16
9.5 Cables ........................................................................................................................................................................ 17
9.6 Earthing & Lighning Protection ................................................................................................................................. 18
10. Estimated Generation ............................................................................................................................................... 18
Annexure-1: Drawings ..................................................................................................................................................... 19
Typical Block Diagram .................................................................................................................................. 20
Earthing & Lighting Arrestor22
Annexure-2: Datasheets ................................................................................................................................................. 27
PV Module .................................................................................................................................................... 28
Inverter31
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
2/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
All the information given above is for indicative purpose only & is subject to changes due to site & design requirements during detailed engineering
2 | P a g e
1. COMPANY PROFILELanco Solar is a subsidiary of Lanco Infratech Ltd. (LITL). LITL is the flagship company of the Lanco Group and is one of the leading
Organizations in the infrastructure sector in the country. LITL and its subsidiaries have strong foothold in power generation,
power trading, infrastructure development, realty and construction.
Lanco Solar aims to be a fully integrated sand to power pioneer throughout the entire value engineering chain in the Solar
PV industry. We are at an advanced stage for the fully integrated manufacturing of high purity polysilicon, silicon ingots / wafers,
solar cells and modules. The project is being set up at a total cost of Rs. 2800 Crores and is the first of its kind in India .This
project is one of the projects approved under the SIPS scheme of the Semiconductor Policy 2007. Further, we have expertise in
conceptualizing and implementing solar systems specific to needs of our valuable customers.
Our corporate vision is to become the most preferred, reliable and admired integrated solar
enterprise and to achieve this goal, we are actively developing utility scale Solar PV power plants
across the country. Lanco Solar has signed Power Purchase Agreements (PPAs) for a cumulative
capacity of 141 MW in Solar PV and Solar Thermal domain with the NTPC Vidyut Vyapar Nigam
Limited (NVVN) under the National Solar Mission and with the Gujarat Urja Vikas Nigam Limited
(GUVNL) under the state policy. We have also signed turnkey EPC contracts for other developers
in Rajasthan and Gujarat. The details of projects which are currently at advanced stage of
installation and commissioning are:-
A Power Purchase Agreement (PPA) for 35 MW Solar PV projects in Gujarat is signed under the state solar policy, out of which
15 MW is successfully running while the rest of the solar projects are in line to get commissioned. The completed 5 MW project
is one of the largest solar project in the country and the first such solar project in Gujarat.
A PPA for 100 MW Solar Thermal and 5 MW Solar PV has also been signed under the bidding process of phase I of the JawaharlalNehru National Solar Mission (JNNSM) in Rajasthan.
A decisive step has been taken in the small scale solar project development area by signing a PPA for 1 MW under the Rooftopand Small Solar Power Generation Programme (RPSSGP) scheme of JNNSM
Turnkey EPC contracts have been signed for prestigious rooftop PV projects such as the 80 kilowatt- peak (kWp) unit on theParliament building and a 100 kWp unit at Science City, Punjab and 1 MWp at Bathinda, Punjab.
80 kWp on the Indian Parliament premises 100 kWp at Pushpa Gujral Science City, Punjab 1 MWp at Phulokhari Bathinda, Punjab.
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
3/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
All the information given above is for indicative purpose only & is subject to changes due to site & design requirements during detailed engineering
3 | P a g e
80 kWp solar roof top project at premises of Parliament House of India was inaugurated by Mrs. Meira Kumar , First Woman
Speaker of the Lok Sabha and Dr. Farooq Abdullah, Minister of New and Renewable Energy on August 09,2011.
1.1OUR ESTEEMED AND VALUABLE CUSTOMERS
Solar Photo Voltaic Projects ( Successfully Commissioned )
Project Name Power Rating of PV System Project Location Application
Grid Connected Solar Photovoltaic
System under Gujarat State Solar
Policy
5 MWp Village :Badhrada
Tehsil : Patan
District : Mehsana
State : Gujarat
Solar Farm
Solar farm photovoltaic System forPEDA 1 MWp Village : PhulokriDistrict : Bhatinda
State : Punjab
Solar Farm
Grid Connected Solar Photovoltaic
System under RPSSGP
1 MWp State : Rajasthan(Lathi) Solar Farm
Century Cements 100 kWp x 6 Nos Century Cements
Location: Raipur
Solar Farm
Roof top solar photo voltaic project 100 KWp Pushpa Gujaral Science City (
PGSC )
Kapurthala
State : Punjab
Roof Top
Roof top solar photo voltaic project 80 kWp Parliament House of India
New Delhi
Roof Top
Roof top solar photovoltaic system
for Rajkot Municipal Corporation
50 kWp East Zone Building
Location: Rajkot
Roof top
Roof top solar photovoltaic system
for CHANDIGARH ADMINISTRATION
50 kWp U.T Secretariat Building
Location: Chandigarh
Roof top
Roof top solar photovoltaic system
for HAREDA
45 kWp Haryana Raj Bhawan
Location : Chandigarh
Roof top
Roof top solar photo voltaic system
for CREDA
42 KWp Tribal Hostels and Primary Health
Centres
State : Chhattisgarh
Roof Top
Roof top solar photovoltaic system
for RITES
25 KWp Gurgaon
State : Haryana
Roof Top
Gurgaon Gramin Bank 2.8 kWp x 20 Nos Various Branches Rooftop
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
4/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
All the information given above is for indicative purpose only & is subject to changes due to site & design requirements during detailed engineering
4 | P a g e
Roof top solar photovoltaic system
for Thane Zilla Parishad
50 kWp Collectors Office
Location: Thane
Roof top
Roof top solar photovoltaic system
at IFFCO, Kalol 10 KWpIFFCO
Location: Gujrat
Roof top
Roof top solar photovoltaic systemfor National Productivity Council
(NPC), Chennai
10 kWp AT DR. AMBEDKAR INSTITUTE OFPRODUCTIVITY (AIP),
Location: Chennai
Rooftop
Solar Photo Voltaic Projects (Under Commissioning )
Project NamePower Rating of PV
SystemProject Location Application
Grid Connected Solar Thermal plant
( Self Owned Project by Lanco Solar
Energy Pvt. Limited under JNNSM )
100 MWp State : Rajasthan Solar Farm
Grid Connected Solar Photovoltaic
System under Gujarat State Solar Policy
30 MWp Village : Badhrada
Tehsil : Patan
District : Mehsana
State : Gujarat
Solar Farm
Grid Connected Solar Photo Voltaic
Plant
( Self Owned Project by Lanco Solar
Energy Pvt. Limited under JNNSM )
5 MWp State : Rajasthan Solar Farm
Grid Connected Solar Photo Voltaic
Plant
75 MWp MAHAGENCO
State : Maharashtra
Solar Farm
Roof top solar photovoltaic system for
Airport Authority of India, New Delhi
250 kWp Airport Authority of India
Rajiv Gandhi BhawanStare: New Delhi
Roof top
Roof top solar photovoltaic system for
PEDA
50 kWp Shivalik Public School
Location: Mohali
Roof top
Roof top solar photovoltaic system for
OREDA
50 kWp Orissa Secretariat Building Location:
Bhubaneshwar
Roof top
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
5/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
All the information given above is for indicative purpose only & is subject to changes due to site & design requirements during detailed engineering
5 | P a g e
2. EXECUTIVE SUMMARYEnergy plays a key role in the economic growth of the country. There is a close link between the Energy & future growth of a
nation. Not only in India but in the entire world there is a never ending need for energy. Since, times immemorial, the energy
are derived from one source or another. In much older periods, the demand for light & fuel was met with traditional sources like
wood or animal dung or waste plants. Later they got replaced by coal, water & nuclear energy which were then available in
abundance. But as the time goes on, the limitations & drawbacks are stepping forward making the hunt for alternative sources
of energy a must, considering the future generation & their needs. More awareness is generating for using the environment
friendly resources.
Though sunlight is considered a compelling solution to the need for clean, abundant sources of energy, solar energy
currently provides only 0.01 percent of the total electricity supply needs. However, recent market trends, regulatory pressures,consumer incentives, and technological advancements are together driving solar energy costs drastically down relative to
conventional fossil fuel-derived energy.
Compared to conventional and other renewable energy sources, solar power is especially attractive because it can be easily
scaled up Solar electricity can also be generated nearer to consumers and even on site, which greatly reduces or eliminates
transmission costs and losses. Furthermore, the increasing adoption of variable-pricing or net metering schemes also favors
solar electricity. Under these schemes electricity rates are higher when peak demand is highest and this generally correlates to
when more solar energy is available and electric output highest. Solar costs are also presently being lowered through higher
volume production, improved manufacturing techniques, and alternative solar technologies that reduce the amount of
semiconductor material. Total installed system costs are further being reduced through cheaper balance-of-system
components such as inverters through improved design and installation techniques. Fundamentally, the solar industry as a
whole has advanced and grown to the point where solar solutions are not only an environmentally friendly option but also a
cost effective one. The Ministry of Power has a mandate to promote cogeneration and renewable sources for
Power generation under Nodal agencies and hence it will play a major role in ma in st re am in g re ne wa bl e e ne rg y se ct or .
Assuring you about our robust project design, reliability and best support, Lanco Solar Energy Private Limited has got an
opportunity to closely work with you to implement this 20 kWp SPV power Plant.
This Detailed Project report brings out the technical details & overall cost mitigating this project. The total power to be
produced by the solar cells will be 20 kWp. The cell technology proposed here is of crystalline type.
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
6/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
All the information given above is for indicative purpose only & is subject to changes due to site & design requirements during detailed engineering
6 | P a g e
3. PROJECT SITE DETAILSAttributes Details
Site LocationBajaj Auto Limited, Bajaj Nagar, Waluj,
Aurangabad.
Latitude 19 49 N
Longitude 78 18 E
Elevation (m) 527
Site Disposition Rooftop
Roof faade Flat
Average Irradiation (kWh/m2
.day) 5.18
Estimated Annual Generation (kWh) 20885
Global Irradiation map for India (source: NASA )
From the above distribution , the Average Global Horizontal Irradiation for Waluj Region comes out to be in the range of 5.0 kWh /m2
to 5.5 kWh /m2
.The monthly average irradiation on latitude tilt for the site is as follows:
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
7/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
All the information given above is for indicative purpose only & is subject to changes due to site & design requirements during detailed engineering
7 | P a g e
MonthAverage Monthly Global Horizontal
Irradiation (kWh /m2
.day)
Jan 4.9
Feb 5.7
Mar 6.3
Apr 6.7
May 6.6
Jun 4.8
Jul 4.0
Aug 3.8
Sep 4.7
Oct 5.1
Nov 4.9
Dec 4.7
Average (GHI) 5.2
Map for Global Irradiation on Latitude tilt for India (source: NASA)
The Average Global Horizontal Irradiation on latitude tilt for Waluj Region comes out to be in the range of 5.5 kWh /m2
to 6.0 kWh
/m2
.The monthly average irradiation on latitude tilt for the site is as follows:
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
8/42
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
9/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering9| P a g e
Atypicalgridconnectsystem
5.DESIGN
PARAMETERS
AvailabilityofShadowfreearea TypeandconditionofRoof Irradiationdataatprojectsite AmbientTemperatureatprojectsite Distanceofthecontrolroomfromthearray
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
10/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
All the information given above is for indicative purpose only & is subject to changes due to site & design requirements during detailed engineering
10 | P a g e
6. SYSTEM CONFIGURATION FOR 20 KWP GRID CONNECT SPVPP
(a) Module wattage : 280 Wp(b) Number of Modules in series : 18(c) Number parallel strings : 4(d) Total Number of modules : 72(e) Proposed system capacity : 20.16 kWp(f) Inverter Rating : 20 kW(g) Array Rated Voltage-Vmp (at STC) : 644.4 V(h) Total Array Current-Imp (at STC) : 31.3 A(i) Array Open Circuit Voltage Voc (at STC) : 802.8 V(j) Total Array Short Circuit Current Isc (at STC) : 33.5 A(k) Cable Laying : Module to Inverter(l) Cable Laying : Inverter to ACCB(m)Cable Laying : ACCB to grid/LT Panel
7. COMPREHENSIVE DETAILAttributes Details
Summary of 20 kWp Solar PV Plant
System Capacity (in kW) 20 kWp
Plant Topology Grid Connected
PV Module Technology Crystalline
No. of cells in PV Module 72 cells
Total No. of PV Modules for (20 kWp) 72
Tilt Angle 18 or as per requirement
Inverter type Grid Connected
Inverter Rating As per system capacity
Output 400 VAC , 3 Phase
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
11/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering11| P a g e
8. BILLOFMATERIAL
BILLOF
MATERIAL
FOR
20
KWP
SOLAR
PV
POWER
PLANT
S.NO. ITEMDESCRIPTION QTY. UOM MAKE
1SolarPVModules 280Wporbelow
above/ for20kWpSystem72 Set Lanco
2
ModuleMountingStructuresuitablefor
accommodating20kWpcapacitySPV
modulesincludingfoundation
1 Set Lanco
3
Grid Interactive Inverter400VAC,50Hz
withDataloggerHardware&software:aspersystemcapacity20kWp
1 Set.
RefuSol/Delta/OPS/Eltek/Bonfiglioli/Emerson/PPS/
SMA/ AEG/PowerOne/Vacon /other make complianttobidspecifications
4 DistributionBoards 1 Set(Switchgearby:ABB/Siemens/Schneider
Electric/L&T/makecomplianttobidspecifications)
5 Cablesasperdesign 1 SetHavells/polycab/finolex/KEI/Grandlay/CCI/other
makescomplianttobid
6 MeteringTVM ,415VLTCTbased 1 Set Reputedmakecomplianttobidspecifications.
7 LightningArrestor 1 Set. AsperBIS
8 EarthingKit 1 Set. AsperBIS
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
12/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering12| P a g e
9. SOLARPVPOWERPLANTDETAILS9.1SOLARPVMODULE:
Asolarpanel(photovoltaicmoduleorphotovoltaicpanel)isapackagedinterconnectedassemblyofsolarcells,alsoknownas
photovoltaic cells. The solar panel can be used as a component of a larger photovoltaic system to generate and supplyelectricityincommercialandresidentialapplications.
Becauseasinglesolarpanelcanonlyproducea limitedamountofpower,an installationwillcontainseveralpanels.This is
known as a photovoltaic array. A photovoltaic installation typically includes an array of solar panels, an inverter and
interconnectionwiring.Solarpanelsuse lightenergy(photons)fromthesuntogenerateelectricitythroughthephotovoltaic
effect.TheWattageofSPVModulesfortheproposedsystemwillbeaspersystemcapacity.ThetypeofSPVModulesprovided
willbeofcrystallineSilicontypewithefficiencyofabout 14%.
Thesolarmodulewillbemadeupoftransmissivityglass frontsurfacegivinghighencapsulationgain,employing lamination
technologyusingestablishedpolymer(EVA)andTedlarorPolyesterbacksheet andhotbutylrubberedgesealantformodule
protectionandmechanicalsupport.
Attributes Details
Nominalrating 280 Wp(atSTC)oraspersite
requirement
Type Crystalline
NumberofCells 72 Cells
MountingArrangementSpeciallyDesignedStructuressuitable
formountingMMS
SolarModuleFrameMaterial anodizedaluminum
Dimensions(mm) 1979x991x38
Weight 25kgs
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
13/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering13| P a g e
SomekeyfeaturesofLancoSolarPVModules:
a. 100%crackfreeb. Positivetolerancec. GermanLaminationtechnologyd. HighfillFactore. Lessseriesresistancef. Lesstemperaturecoefficientg. Highefficiencyh. SuitableforIndian& European Climate
9.2MOUNTINGSTRUCTURE:
AnumberofPVpanelsconnectedinseriesandinparallelgiveaDCoutputoutoftheincidentirradiance.Orientationandtiltof
thesepanelsareimportantdesignparametersaswellasshadingfromsurroundingobstructions
Atypicalmodulemountingstructure AtypicalModulemountingstructurewithModules
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
14/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering14| P a g e
SuitablenumberofArray frameswillbeprovided.Thearray framesproposed forthesitewouldtypicallyutilizedesignwitha
differenttiltanglecapability.This istypicallyachievedbychangingthe lengthoftherearsupport legandthespacingbetween
the front and rear footings. The array frames are made of MS galvanized/Aluminum and is protected against the salt mist
corrosionandotherenvironmentimpacts.Thearrayframeswillbecorrosionresistant.
Thearray frameswouldbecertified forwindand seismic requirementsof theareaandmost importantly, fora remote site,
wouldutilizefootingsthatwillminimizethequantityofconcreterequired.Thearrayframesaredesignedforsimplicity,lowcost
andeaseofinstallationatsite.
The structure can be installed with a fixed inclination by selecting required angle slots available. Th e design will be such
thatan ymodule can be replaced easily. Thegalvanized steel structureprovidessupport for the photovoltaic modules
andhas longer lifeand gives them the optimum angle of inclination,dependenton thesystem location .TheStructure
consists of a set of components that can be managed and mounted in the place where the installation is going to be
realized.Thesestructures are designed to survive adverse weather conditions with minimum maintenance.Thestructurewill
besuppliedwithallmemberstobecompatibleallowingeasyinstallationattherooftopsite.
Thedetailsareasunder
Attributes Details
Type Fixed
Tilt 23orasperrequirement
Material MildSteel
SurfaceFinish HotdippedGalvanizing
WindSpeedTolerance 150km/hr
Hardware All hardware required for fixing the
structure and solar module shall be
provided
Foundation PCC/RCC foundationBlocks
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
15/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering15| P a g e
9.3INVERTERSolarphotovoltaic isDC (Directcurrent)source.TheDCoutputhas tobe inverterd to thegridalternatingcurrent (AC)bya
power electronic device referred to as inverter/power conditioning unit. The synchronization happens automatically with
availablegridvoltage&frequencyanditstartstofeedmoduleoutputintogrid.
ThesecondimportantjobofthesolarpowerinverteristooperatethePVsystematitsmaximumpowerpoint(MPP)&extract
maximumgeneration.TheMPPisdefinedastheoperatingpointwherecombinedvalueofvoltage¤tresultinmaximum
poweroutput.ThisMPP fluctuatesduringoperation inan intervaldependingupontheradiation,celltemperature&thecell
typeandithastobetrackedbytheinvertercontrollerunit.
TheInverter forthe20kWpSPVpowerplantwillbeagridconnect whichwillbeacombinedunitcomprisingof inverterand
necessaryprotections.
MeritsofaGridConnectedinverterare;
Easytoinstall Highefficiency Reliableoperation Robustagainstgridfluctuation
Attributes Details
Type GridConnect(CentralorString)
Powercontrol MPPT
Continuousrating Aspersystemcapacity20kWp
THD
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
16/42
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
17/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering17| P a g e
9.5CABLESInordertohaveminimumlossesinthesolarphotovoltaicpowerplant,cableselectionisacriticalactivityofthedesign.
Thesizeofthecableisverycarefully selectedensuringverylimitedpower&voltagedrop.Theselectionofcableisdone
considering
the
short
circuit
current
that
can
flow
through
cables.
Thecablesusedaremultistrand Coppercables.Thecablesexposedtoenvironment aredoublesheathedUVprotected
ones.Allthecablingwillbecarriedoutasperthestandards. Thecabledetailsareasfollows:
Attributes Details
Conductor Multistrandhighconductivity Copper
Insulation/sheath PVCInsulated
Cablelugsfortermination Providedininstallationkit
TemperatureRange 10C70C
Certifications 650/1.1KVgradeasperIS694/IS1554
./equivalent IECstandards
9.6 EARTHING&LIGHTNINGPROTECTIONEARTHING &LIGHTNING PROTECTION SYSTEM
Theearthingofalloutdoorequipment&provisionofassociatedearthingsystems,electrodes &connectionswillbeasper
latestIEEEandIS3043standards. Earthelectrodes willbeprovidedthroughoutplantareasalongwiththemainearthgrid.
Adequatenumberofearthelectrodesareprovidedsothatthetotalearthgridresistanceislessthan1ohm&hencethe
possiblefaultcurrentistakencareof.Earthelectrodes willbemadeupofheavydutyGIpipes40mmdiameterand3.5
meterslong.Theearthelectrodeswillbeprovidedinearthpits.Theearthpitwillbeoftwotypestreatedwithearthlinks
&untreated. Themainburiedgridconductorswillbeconnectedtoalltheearthelectrodestoformatotalearthgrid.
Galvanizedsteelflatswillbeusedasperapproveddesign.
EQUIPMENT EARTHING
Theframesofallelectricalequipment&structural workwillbeearthedbyconnectiontotheearthgridbybranchesof
samecrosssectionalareaofearthgrid
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
18/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering18| P a g e
LIGHTNING PROTECTION
LightningprotectionwillbeasperISStandardsandIErules. Verticalairterminationof40mmdiameterand3meterlongwillbeprovidedabovehighestpointofarrayto
ensurefullradiusprotectiontoarray.
10 ESTIMATEDGENERATION (20KWPSPVSYSTEM)GenerationDetails
Month EstimatedGeneration(KWh)
January 3004
February 2866
March
3142
April 2891
May 2713
June 1973
July 1770
August 1757
September 2180
October 2730
November 2848
December
3009
total 30885
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
19/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering19| P a g e
DRAWINGS
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
20/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering20| P a g e
TYPICAL BLOCK DIAGRAM
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
21/42
GENERAL NOTE:THIS DRAWING IS THE PROPERTY OF LANCO SOLAR ENERGY PVTLTD, GURGAON 122016 AND SHALL NOT BE COPIED OR USED IN ANYWAY WITHOUT THEIR PE RMISSION,WHO RESERVE THE COPYRIGHT.ALL DIMENSIONS SHALL BE THE RELEVANT ARCHITECTURAL ,STRUCTURAL AND CHECKED AND CORRELATED WITH CONSULTANTSDRAWING. ANY AMBIGUITY , DISCREPANCY OR OMISSION SHALL BEBROUGHT TO THE NOTICE OF THE CONSULTANTS IMMEDIATELYBEFORE COMMENCING.
NOTES
REV. DATE REVISION BY CHECK APP
LANCO SOLAR ENERGY PVT LTD.Plot No.229,Phase- I Udyog Vihar, Gurgaon
PROJ ECT TITLE: 20 kWp Solar PV Power Plant
CLIENT: Bajaj Electricals, Aurangabad
DRAWING TITLE: Single Line Diagram
DRAWING No: LSEPL-BE-EE-DW-332
DATE:
06-07-2012
DRAWN:
AS
CHECKED:
AU/SH
APPROVED:
SY
SCALE:
N.T.S
SHT1 OF 2
SHEET SIZEA2
REV
0
REFERENCE DRAWINGS
1
18
1
18
1
18
1
18
1C X 4 SQ. MM
CABLE(TYPICAL)
20 kW
INVERTER
40 A4P, MCB
EM 40/5 CT
SPD
4C X 10 Sq mm
TO LT PANEL
(CUSTOMER SCOPE)
280Wp,18Moduleinseries
ACDB
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
22/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering22| P a g e
EARTHING & LIGHTING ARRESTOR
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
23/42
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
24/42
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
25/42
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
26/42
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
27/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering27| P a g e
DATASHEETS
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
28/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering28| P a g e
SOLAR PV MODULES
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
29/42
High Efficiency Lanco Solar PV Poly crystalline Modules (LSP XXX)
Special
Features100% Micro Crackfree Cells in PV Module
Positive orientedPower Tolerance [0-2.5%]
Configured withRFID Tags
German LaminationTechnology
American StringingProcess
GuaranteedPerformance as perBest IndustryStandards
High QualityInduction SolderedJoints
High Fill factor andless series Resistance
Solar ModulesLess Temp Coefficient
Solar PV modulesSuitable for Indian andEuropean Climates.
100% Online ELInspection System.
Power Warranty
25 Years Power
degradation warranty
(5 Years 95%, 12 Years
90%, 18 years 85%, 25
years 80%)
CAUTION: READ SAFETY AND INSTALLATION INSTRUCTIONS BEFORE USING THE PRODUCT. May 2011 Lanco solar Pvt limited. All r ights reserved. Specifications included in this datasheet are subject to change without notice
Last updated Date: 23rd Mar 2012
UnitLSP275
LSP280
LSP285
LSP290
LSP295
LSP300
Electrical Data @ STC
Power Max W 275 280 285 290 295 300
Power Output % -0 + 2.5
Short Circuit Current - Isc A 8.352 8.393 8.435 8.477 8.52 8.562
Open Circuit Voltage -Voc
V 44.4 44.6 44.6 44.81 45.22 45.62
Current at Maximumpower point -Impp
A 7.78 7.84 7.91 7.98 8.04 8.11
Voltage at Maximumpower point -Vmpp
V 35.5 35.8 36.09 36.39 36.7 37
System Voltage V 1000
Fill Factor % 0.74 0.75 0.76 0.76 0.77 0.77
Module Efficiency % 14.02 14.28 14.53 14.79 15.04 15.30
Temp coefficient ofCurrent %/C 0.036
Temp coefficient ofVoltage %/C -0.33
Temp coefficient ofPower %/C
-0.47
System Voltage V1000
NOCT C 46 +/- 2
Series Fuse Rating A 15
Junction Box IP66
Aluminum FrameAL 6063 T5
Solar Glass High Transmittance 3.2mm Textured & Tempered Glass
Product CertificationsIEC 61215, IEC 61730 , IEC 61701 ,
Certification Lab Intertek
Plant Certifications ISO 9001:2008,ISO 14001 and OHSAS 18001:2007
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
30/42
High Efficiency Lanco Solar PV Poly crystalline Modules (LSP XXX)
Special
Features100% Micro Crackfree Cells in PV Module
Positive orientedPower Tolerance [0-2.5%]
Configured withRFID Tags
German LaminationTechnology
American StringingProcess
GuaranteedPerformance as perBest IndustryStandards
High QualityInduction SolderedJoints
High Fill factor andless series Resistance
Solar ModulesLess Temp Coefficient
Solar PV modulesSuitable for Indian andEuropean Climates.
100% Online ELInspection System.
Power Warranty
25 Years Power
degradation warranty
(5 Years 95%, 12 Years
90%, 18 years 85%, 25
years 80%)
CAUTION: READ SAFETY AND INSTALLATION INSTRUCTIONS BEFORE USING THE PRODUCT. May 2011 Lanco solar Pvt limited. All r ights reserved. Specifications included in this datasheet are subject to change without notice
Last updated Date: 23rd Mar 2012
Mechanical & Packing Details
LSP 275 to LSP 300
Module size1979 x 991 x 40 mm +/- 1mm
Module Mounting Dimensions1360X 941 +/- 3mm & 860 X 941 +/- 3mm
Dia of Hole : 9 x 14mm (8 Nos)
Frame Joint & Drain Hole details
No. of Modules in pallet 25 Nos
Dimensions of PV Module LSP 275 to LSP 300
EL Image Solar PV Module Mounting Dimensions
IV Details of PV Module LSP 275 to LSP 300
991
941
1360
1979
860
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
31/42
Detailed Project Report (DPR)LESPL/DPR/BAL/2012-13/0099
Alltheinformationgivenaboveisforindicativepurposeonly&issubjecttochangesduetosite&designrequirementsduringdetailedengineering31| P a g e
INVERTER
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
32/42
Thr-phas String InvrtrStringwchslrichtr driphasig
Reusol
008-020KLight, compact and xtrmly powrl!
Thanks to IP65 protction, th thr phasstring invrtrs in th 8-20 kW powr classs arsitabl or intrior and xtrior installations, romth 8 kW rootop systm throgh to th mgawattpark. Thir low wight and volm nsr simplyhandling and savd spac dring th installation.This is simplid rthr by a plg & playnctionality togthr with an intgratd RS485intrac and ethrnt.
evn at a low irradiation, th invrtrs achiv apak fcincy o p to 98.2%. This is nsrdby an xcllnt MPP-tracking and a wid inptvoltag rang o p to 380-850 V. Throgh thvry low lvls o loss ovr th compltinpt voltag rang, th Reusol008K-020K canb congrd or convction cooling only.
With th intgratd data loggr it is possiblto monitor yor systm arond th clock. Thsdata can b transrrd via th standard cablor an optional wirlss connction via or nw
Reuconnectradio modl. Larn mor abot orReulogmonitoring systm on pag 22.
Thanks to th largly insignicant voltagfctations against arth, th transormrlssdvics can also b sd or nmros thin lmmodls.
Reusol
008-020KLicht, kompakt nd xtrm listngsstark!
Di driphasign Stringwchslrichtr in dnListngsklassn 8-20 kW sind von dr 8 kWAdachanlag bis zm Mgawattpark, dank IP65,r Innn- nd Anastllngn gignt. Ihrgrings Gwicht nd Volmn sorgn r ininachs Handling nd Platzrsparnis bi drInstallation. Witr vrinacht wird dis drchin Plg & Play-nktion zsammn mit dnintgrirtn Schnittstlln RS485 nd ethrnt.
Schon bi gringr einstrahlng rziln diWchslrichtr inn Spitznwirkngsgradvon bis z 98,2%. Dar sorgt in hrvorragndsMPP-Tracking nd in britr eingangsspan-nngsbrich von bis z 380-850 V. Drch dnshr gringn Vrlst br dn komplttneingangsspannngsbrich sind di Reusol008K-020K mit rinr Konvktionskhlng as-hrbar.
Mit dm intgrirtn Datnloggr kann IhrAnlag rnd m di uhr brwacht wrdn.
Dis Datn knnn kablgbndn odroptional kabllos br nsr ns nkmodlReuconnectzr Visalisirng nd Aswrtngbrtragn wrdn. erahrn Si mhr z nsrrbrwachngsnktion Reuloga Sit 22.
Dank dr kam nnnnswrtnSpannngsschwankngn ggn erd, sinddi traolosn Grt ach r zahlrichDnnschichtmodl instzbar.
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
33/42
Reusol
008K1) Reusol
010K Reusol
013K Reusol
017K Reusol
020K
DC data DC Datn
Max. PV powr Max. PV-Listng 8.8 kW 11 kW 13.6 kW 18.1 kW 21.2 kW
MPPT rang MPPT-Brich 430 ... 850V 380 ... 850 V 420 ... 850 V 445 ... 850 V 480 ... 850 V
Max. DC voltag Max. DC Spannng 1000 V
Max. DC crrnt Max. DC Strom 20.5 A 29 A 30 A 38.5 A 41 A
MPP tracking MPP Tracking On ast, prcis MPP trackr ein schnllr, przisr MPP-Trackr
Nmbr o DCconnctions
Anzahl DC-Anschlss 3 4 6
DC-disconnctionswitch
DC-Trnnschaltr Ys Ja
Intrnal ovrvoltagprotction
Intrnrbrspannngsschtz
Typ 3 Typ 3
AC data AC DatnRatd AC powr AC-Bmssngslistng 8.25 kW 10 kW 12.4 kW 16.5 kW 19.2 kW
Max. AC powr AC max. Listng 8.25 kW 10 kW 12.4 kW 16.5 kW 19.2 kW
AC grid connction AC Ntzanschlss 3 AC 400 V + N. 50-60 Hz
Cos 0.9i ...1... 0.9cMax. AC crrnt Max. AC Strom 12 A 18 A 29 A
Distortion actor THD Klirraktor THD < 2.5% < 1.8%
Max. cincy Max. Wirkngsgrad 98.0%2) 98.0% 98.0% 98.2% 98.2%
eropan cincy erop. Wirkngsgrad 97.5%2) 97.4% 97.5% 97.8% 97.8%
Ind starting at einspisng ab 20 W
Intrnal consmption innight opration
eignvrbrach Nacht < 0.5 W
Intrnal ovrvoltagprotction
Intrnrbrspannngsschtz
Typ 3 Typ 3
Cooling, ambintconditions, eMC
Khlng, umgbngs-bdingngn, eMV
Cooling Khlng Natral convction Natrlich Konvktion
Ambint tmpratr umgbngstmpratr -13 ... +113-25 ... +45C
-13 ... +131 -25 ... +55C
elvation Astllhh up to 2000 m abov sa lvl Bis 2000 m br NN
Nois Grsch < 45 dBa
emittd intrrnc Strassndng eN 61000-6-4: 2007
Crtication Zrtikat Ce (uL and CSA in prparation) Ce (uL nd CSA in Vorbritng)
Intrrnc immnity Strstigkit eN 61000-6-2:2005
environmntal classi. umwltklassn 4K4H acc. to DIN IeC 721-3-4 4K4H nach DIN IeC 721-3-4
SZS or grid protction eNS Acc. to VDe 0126-1-1 Nach VDe 0126-1-1
Intracs Schnittstlln ethrnt & RS485
Mchanical Mchanik
Typ o protction Schtzart IP65 as pr eN 60529 IP65 nach eN 60529
DimnsionsWidth / Hight / Dpth
AbmssngnBrit / Hh / Ti
535 mm / 601mm / 271 mm
535 mm / 601 mm / 277 mm
Wight Gwicht 30 kg 35.5 kg 41.5 kg
Tchnical dataTchnisch Datn
1) Availabl as rom Q3 20112) Intrim vals, vrication by masring
1) Vrgbar ab Q3 20112) Vorlg Wrt, Bsttigng drch Mssng
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
34/42
20 TL
EU
Version:EU,
Langua
ge:en
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
35/42
20 kW transformerless solar inverter
www.solar-inverter.com
06 September 2011 - All information and specifications are subject to change without notice.
Delta Energy Systems (Germany) GmbHTscheulinstrasse 2179331 TeningenGermanyEmail: [email protected] Hotline: 0180 10 SOLAR (76527)Mondays to Fridays from 8 am to 5 pm (apart from offical Bank Holidays) (3,9 ct/min)
INPUT (DC)
Max. recommended PV power 25.0 kWP
Nominal power 20.4 kW
Voltage range 200 ... 1000 V
MPP range 350 ... 800 V
No. of MPP trackers 2
Max. current 60 A (30 A x 2)
GENERAL SPECIFICATION
Model name SOLIVIA 20 EUG3 TL
Part number Delta EOE48010224
Max. efficiency 98.1 %
Efficiency EU > 97.5 %
Operating temperature -20 ... +60 C
Storage temperature -20 ... +80 C
Humidity 0 ... 90 %
OUTPUT (AC)
Max. power 21.0 kW
Nominal power 20.0 kW
Voltage range (3 phase, 3 wire) * 3 x 400 V (-20 % / +20 %)
Nominal current 29 A
Max. current 30 A
Nominal frequency 50 / 60 Hz
Frequency range *50 Hz: 47.0 ... 53.0 Hz60 Hz: 57.0 ... 63.0 Hz
Power factor > 0.99 @ nominal power
Total harmonic distortion (THD) < 3 % @ nominal power
MECHANICAL DESIGN
Size (L x W x D) 952.0 x 624.7 x 278.0 mm
Weight 65.0 kg
Cooling Fan
AC connector Amphenol C16-3
DC connector 4 pairs Multi-Contact MC4
Communication 2 RJ45 / RS485
DC disconnector Integrated
Display Black/white graphical LCD
STANDARDS / DIRECTIVES
Protection degree IP54 / IP65
Safety class 1
Configurable trip parameters Yes
Insulation monitoring Yes
Overload behavior Current limitation; power limitation
Safety EN60950-1; EN50178; IEC62103; IEC62109-1 / -2
Anti-islanding protectionDIN VDE 0126-1-1; RD 1663; RD 661; ENEL G.L. 2010; UTE 15712-1;Synergrid C10/11; EN 50438
EMC EN61000-6-2; EN61000-6-3; EN61000-3-11; EN61000-3-12
* AC voltage and frequency range will be programmed according to the individual country requirements. AC output is Delta grid without neutral.
Temperature & design improvements
The SOLIVIA solar inverters from Delta aredust tight (IP54/IP65) and operate over a wide
range of temperatures. A very high efficiency
of 98.1 %, a wide input voltage range of 200 up to 1000 V
as well as 2 MPP trackers give you ultimate flexibility when
designing your system.
One model for all countries
One unit can be used in more than eight Euro-pean countries (e. g. DE, IT, ES, FR, CZ, BE,
GR, PT, etc.) simply by the click of a button!
The multi-country models will help our customers to save
costs in warehousing and logistics.
SOLIVIA - The new generation of solar inverters from Delta offer high-efficiencystring and central inverters. SOLIVIA stands forSolar inverters for versatile andintelligent applications.
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
36/42
vacon 8000 solar inverter
a driving force in solar energy
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
37/42
vacon solar offering products, services and solution supportvacon a driving force in renewable energy
Vacon was founded in Vaasa, Finland in 1993. It has a long history of producing high-quality
inverters, power converters and AC drives for demanding renewable energy and industrial
applications and operating environments. We have a solid foundation to lean on and we thrive
on actively driving the industry forward.
harnessing the sun
Vacons offering for the solar energy industry is not just
li-mited to our inverter products. Based on our long
experience in serving our customers in the renewable
energy field, as well as other demanding industries, we can
offer you the whole package from products to maintenance
services and support for planning and commissioning.
Solar inverters, such as the Vacon 8000 SOLAR, are a vi-
tal part of the configuration between solar panels and the
general grid. The function of an inverter is simply to convert
the captured photovoltaic power into AC, and feed it into the
grid.
The Vacon 8000 SOLAR covers all the needs of the commer-
cial, industrial and utility sectors. Our products have been
designed with ease in mind. They are easy to install, use and
maintain. The modular set-up and additional tools give you
an enjoyable user experience with numerous benefits.
vacon truly global
a reliable performance
To date, over 5000 MW of renewable peak power capacity
has been enabled by Vacon inverters. To put these
numbers into perspective, a typical nuclear power plant
can produce up to 1000 MW of capacity. And with an R&D
team dedicated solely to the development of new solar
energy applications, we continue to strengthen the position
of renewable energy as one of the corner-stones of our
company strategy.
a strong global presence
Vacon is an established and international company with pro-
duction on three different continents. A large and continu-
ous flow of parts improves the availability of our products
and solutions. We have a global service network: Vacon has
offices in 27 countries and with our extensive partner net-
work we have 83 service locations in 50 countries.
In accordance with our long history of producing reliable so-
lutions, all the Vacon 8000 SOLAR products are extensively
tested before delivery.
manufacturingand R&D on 3 continents
vacon sales
and services in 27 countries
service centers
in 50 countries (including partners)Vacon solution support will provide you with the needed documentationfor your outdoor medium voltage station.
We take care of all your solar inverter needs. Our wide
power range of solar inverters is supported by a variety of
string connection boxes as well as medium voltage outdoor
stations. We also understand how essential it is to be able
to provide first-class commissioning- and maintenance ser-
vices at any location where you decide to install your solar
power plant.
2 3
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
38/42
predictable and reliable power generation
Vacon has a well-established global service network which ensures that your
inverters keep generating power to the grid. The services, which are designed
to meet the requirements of the entire life cycle of the plant and the inverters,
are available whenever needed. Services are also available upon request to
customers with no service agreement.
The availability and performance of services can be further ensured with a ser-
vice agreement that offers an extended coverage of the standard product war-
ranty, scheduled maintenance with guaranteed parts availability and condition
based monitoring. With the service agreement Vacon is responsible for providing
the necessary and appropriate services in accordance with the requirements set
by the site conditions and usage of the inverters.
Vacon can help you to optimize your power generation through the analysis of in-
verter capacity and energy production. By securing inverter availability and per-
formance with the service agreement, you can minimize risks and uncertainty.
vacon services
Maintenance
- Site visits to ensure the wellbeing of the inverter
Spare parts
- Availability of spare parts for inverters
Exchange units
- With an exchange unit a single inverter module
can be replaced quickly and the system can be
recovered fast
Troubleshooting and repair
- In cases of malfunction the inverter will be
analysed and fixed and put back into operation
easy installation
and commissioning
Saves time andresources
Flexible physical layout
due to modular inverter
concept
Intuitive graphical touch
screen interface
Factory set up requires
very little, if any further
adjustment on site
efcient operations
Unique Solar Multimaster concept
secures maximum inverter efficiency
Superior active front end (AFE)
technology enables the very low
harmonic content of the output power
10 100 kW units with isolation
transformer: limits EMC related
disturbances and prohibits DC
current to grid
Robust voltage transient protection to
minimize downtime
maintenance
without downtime
Modular concept allows maintenanceand replacement of a single unit
while the inverter is still generating
power for the network
Remote monitoring software allows
status checks. Enables fast response
and reduces traveling costs
Modular set up within individual units
allows easy and fast access to single
components
vacon service agreement
5 to 20 years from delivery
Availability and performance of the services
(listed left)
Capacity analysis
- Ensuring inverter capacity is properly utilized
Inverter availability
- Guaranteed inverter capacity availability
vacon solar services vacon 8000 solar inverter
life cycle phase Start payback Optimize payback Secure production
vacon expertise Proper commissioning:On-time as planned start
Ambient monitoringOperating hour monitorEnergy monitorCapacity analysis
Scheduled maintenanceCondition based maintenanceAmbient monitoringCapacity update analysis
time 1 yearStart 2 years 5 years 10 years 15 years 20 years
heading for time line
4 5
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
39/42
by rotating inverter units in use we ensureequal usage and extend their lifetime
ease and reliability through modularity
The Solar Multimaster is a unique concept that improves
efficiency, reliability and functionality in all l arge-scale
applications. The concept allows a series of one to
twelve separate inverter units to be connected together
in sequence. This means that only the optimal needed
number of inverter modules is powered up for minimal
power loss. By rotating the inverters in use we can ensure
reduced and equal runtime, thereby ex- tending the entire
set-ups overall lifetime.
The entire set-up is centrally controlled via the touch screen
on the control unit. This modular approach creates numer-
ous advantages compared to conventional single inverter
set-ups. In addition to allowing for optimisation according to
sunlight, the modularity allows for repairs and maintenance
to be carried out without complete shutdowns. The charging
fuse disconnectors allow single units to be safely connected
and disconnected while the set-up is up and running.
solar multimaster benets
40% lower wear and tear of eachinverter module
The 1 MW Vacon 8000 SOLAR Multimaster consists of 5
parallel inverter modules that are started up only when
the available power from solar panels require it. In
practice, during mornings, evenings and cloudy days only
some of the units are active. This reduces the running
hours of each module by 40% on a typical installation site.
Reduced running hours will result in a longer lifetime and
a lower failure rate.
better availability through redundancy
If one inverter module in the 1 MW Vacon 8000 SOLAR is
not operating due to maintenance work or unit failure,
the loss of production is only 4%. Typically only 4% of
the accumulated energy per year is generated with peak
capacity provided by the 5th module. This means that with
the Vacon 8000 SOLAR you will reach 99% availability
even if one of the modules is down for 3 months. The
modules are installed in individual cabinet sections. In
case of a failure in one of the cabinets, the other modules
are protected and the failure is isolated into only one
section. The amount of spare parts needed to guarantee
fast service is also smaller and less expensive due to the
lower power per module.
simple transformer design
Vacon has patented a switching algorithm that minimizes
the circulating currents between inverters and the trans-
former. This allows you to use a transformer with single
secondary winding when connected to the Vacon 8000
SOLAR with Multimaster.
Power/No of active inverter units.x
vacon 8000 solar with multimaster:keeps your sun shining even during service
power night
day 11 2 3 41 11 2 1 2
First unit to start power-up sequence of the day
day 24 1 2 31 11 2 1 2
First unit to start power-up sequence of the day
day 33 4 1 21 11 2 1 2
First unit to start power-up sequence of the day
day
Energy loss percentage resulting from a single module beingswitched off (time span 7-17 hrs)
operational hours
energy loss comparison
Power%
100
80
60
Single unit inverter
07:00 12:00 17:00
String/array inverterPower%
100
80
60
07:00 12:00 17:00
Vacon 1 MW multimasterPower%
10080
60
07:00 12:00 17:00
Single unit inverter 5 unit mult imaster
5000
4000
3000
2000
Hours
6 7
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
40/42
technical data
Options, monitoring
00 = not used or C2 = used
EMC emission level
L = Fulfils standard EN 61800-3,2nd environment, restricted distribution
T = Fulfils standard EN 61800-3 for IT networks
Enclosure class
2 = IP21
Control keypad and display on the cabinet door
A = Alpha-numeric (default)B = No local keypad
F = Dummy keypadG = Graphical keypad
2 = No galvanic isolation transformer, output 3 x 280 VAC
4 = Galvanic isolation t ransformer, output 3 x 400 VAC
Nominal power
e.g. 0010 = 10 kW, 0100 = 100 kW
Vacon NXV = Solar power inverter
vacon nxv-0010-4-a-2-l-a1a2d700xx
Typecode
Strings Max.voltage
Fuse/string
MC3connector
Remotemonitoring
IP
STG 08 8 1000 V 10 A - - 54
STG 08+ASM 8 1000 V 10 A - Yes 54
STG 08+IMC 8 1000 V 10 A Yes - 54
Country Low voltage Medium voltage
Germany VDE 0126-1-1 BDEW 2008
France EN 50438 Arrt du 23 avril 2008
Italy CEI 11-20 Allegato 17. Terna
Spain R.D. 1663/2000 P.O. 12.2; P.O. 12.3
Czech EN 50438
UK EN 50438
Belgium EN 50438
A us tr al ia A S 4 77 7. 2; A S 4 77 7. 3
Ant i-Island ing IEC-62116
Typecode
No ofinverternodes
No string boxnodes
/ inverter
Max. Nomodbusnodes
IP
STG 00 99 99 230 54
string box for 8 stringsapprovals: grid codes
monitoring box
Input Safety / protection
MPP voltage range 10 - 100 kW 340 - 800 VDC IP class IP21
MPP voltage range 125 - 1000 kW 410 - 800 VDC Ground fault monitoring Yes
Max. input voltage 900 VDC Overload behaviour Power limiting
Min. input voltage 350 VDC Over temperature behaviour Power limiting
Max. open circuit voltage 850 VDC Forced stop Yes
Output Circuit breaker AC side Optional
Nominal output voltage 10 - 100 kW 400 V, 3 phase Circuit breaker DC side Yes
Nominal output v ol tage 12 5 - 10 00 kW 2 80 V, 3 phase Control interface
Output frequency 50 / 60 Communication RS-485, Ethernet, GPRS
Power factor Adjustable 0,1-1 leading/lagging Analog inputs 2
AC overvoltage protection Yes Analog outputs 1
AC current harmonics
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
41/42
remote monitoring for vacon 8000 solar
The remote monitoring function allows you to follow the sys-
tem status and power generation of your inverters online.
This function is especially important for inverters in remote
sites. Remote monitoring functions can create considerable
savings over time by reducing travel related costs for regu-
lar check-ups and maintenance.
The remote monitoring of the Vacon 8000 SOLAR Inverters
produces a data archive (daily, monthly and yearly). When
combined with Vacons remote monitoring stringboxes, it is
possible to monitor individual string intensity for diagnostic
purposes. This way bad strings can be found and serviced
in order to achieve the highest possible energy production.
The system delivers an immediate SMS alarm message to
minimize downtime, and provides a report on all the latest
events.
Vacons installed base of solar applications
now totals more than 200 MW in Europe alone.
Deliveries have been made to: Australia,
Belgium, China, The Czech Republic, Finland,
India, Italy and Spain. There have been many
successful solar energy cases completed for
customers around the world.
tools make planning and use easier references
case: vetreria di borgonovo, italy
The Vetreria di Borgonovo glassware factory, established in
the 1950s, is located near the town of Piacenza in northern
Italy. Vacon provided all the needed inverters, which have
been connected to solar panels mounted onto the factorys
roof. The Vacon 8000 SOLAR is a vital part of the configura-
tion between the solar panels and the grid: it converts pho-
tovoltaic DC power into AC power, and feeds it into the grid.
Vacons Multimaster software has made it possible to con-
nect one to eight inverter modules, based on the amount of
sunshine, thus ensuring that the glassware factorys solar
power plant operates with the best possible efficiency.
a long term customer trusted vacons
renewable energy products and person-
nel, and received a high-quality solar in-
verter solution for their facilities.
Marco Beltrami
Deputy Managing Director
Vacon SpA, Italy
case: health city tness center,merksem, belgium
This case, in Merksem, Belgium is an exemplary success sto-
ry for Vacon. Health City is a fitness center group with facili-
ties in Belgium, The Netherlands and Germany. The Merksem
centers environmental concerns and interest in renewable
energy resulted in an on-site solar installation of 60 kW in to-
tal, consisting of 2 times 30 kW.
The original installed PV inverters, when put online, were
found to cause disturbances in the wireless heart monitoring
systems, used in cardiac training and safe intensive workouts.
The customers complained that the equipment didnt work
as intended and the inverters had to be switched off during
such fitness sessions. The situation could not be allowed to
continue.
The system integrator contacted Vacon wanting to know
whether the Vacon 8000 SOLAR inverter could be the solution.
Based on Vacons experience with drives in sensitive environ-
ments, Vacon was confident that it could offer a solution for
this particular case.
Initially one Vacon 8000 SOLAR 30 kW unit was shipped to
Merksem in order to test it for this particular ca se. The wire-
less heart monitoring devices worked perfectly, even when the
Vacon inverter was enabled. The results were very satisfying.
The system integrator found a solution for the special needs
of a sensitive environment and the Health City Fitness Center
in Merksem is now able to get a return on their investment,
without the risk of any disturbance in their wireless heart
monitoring systems.
A second Vacon 8000 SOLAR 30 kW unit is about to replace the
other inverter that still gets switched off every time the heart
monitoring system is used.
plc touch screen panel
The PLC touch screen panel on the control unit provides
a simple and clear user interface for the entire system.
By using the panel, you can monitor the status of the
entire system. You can see the actual power generated in
graphical form and choose to view daily, weekly or even
monthly figures. Regardless of the number of units in your
system, you can use one single touch screen to adjust or
control set-up. The touch screen is available as standard in
600 1000 kW units.
10 11
7/27/2019 DPR 20 KWp Bajaj_11!07!12_Rev 0
42/42
Vacon Partner0
414E