General InputsAnalysis Period (Project Life) 20 years (40 max) First Year O&M Costs ($/year) $4,404Discount Rate 7.00% % per annum First Year Unit O&M Costs ($/kW/year) $10Inflation Rate 2.00% % per annum Net Present Value O&M Costs (project life) $137,778Truck Rental Cost/ day $100 Net Present Value (project life) per Wp $0.31Working Hours/year 2,080
Note: Horz. axis range not yet dynamic
System InputsName of System Hypothetical Roof-‐mount System #1 Location Denver, CO System Type Grount-‐Mount Fixed Tilt (> 100kW)System Size (Wp DC) 440,000 Energy Yield (kWh/kWp/year) 1,596 Module Power (W STC) 305Number of Modules 1443Module Type/ Degradation Mulit-‐crystal Silicon:0.64%/yearModule Encapsulant Ethyl Vinyl Acetate (EVA)Modules per String 14Number of Strings 103Strings per Combiner Box 6Number of Combiner Boxes 18Combiner boxes per DC disconnect 1Number of DC Disconnects 18Inverter Type String Inverter Inverter Replacement Cost/ Wp $0.20 Number of Inverters 1Inverter Capacity (kWp) 400Number of Transformers 1Inverter Warranty (years) 10PV Module Product Warranty (years) 10Other equipment (EPC) Warranty (years) 10Purchased monitoring contract (years) 5 Enter '0' if not applicable
Ground Coverage Ratio (GCR) 33%Site Area (acres) 2.3
Modules/Row 14Total Rows: 103Rows per Tracked Block:(ignore untracked) 1Total Tracking Blocks:(ignore untracked) 103.0Foundations per row: (ignore rooftop) 1
Environmental ConditionsIndicate "1" if condition applies to project, "0" if not applicableSnow 0Pollen 0Bird Populations 0
Inputs Results
0.00
5.00
10.00
15.00
20.00
25.00
30.00
35.00
40.00
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
$'s (Thou
sand
s)
Project Year
Annual Cash Flow (Nominal)
0.0%
18.0%
1.2%
5.4%
10.8%
25.2%
0.0%
2.7%
17.5%
11.5%
1.6%
6.1%
Monitoring
Inverter
AC Wiring
Mechanical
DC Wiring
PV Module
Meter
Electrical
PV Array
Cleaning/Veg
Asset Management
Documents
0% 10% 20% 30%
NPV by Component
0.0%
1.1%
0.0%
9.0%
5.5%
0.0%
4.2%
2.7%
0.9%
7.8%
23.0%
13.0%
17.4%
5.9%
9.5%
Designer
Pest control
Roofing
Structural engineer
Mower/Trimmer
Utilities locator
Mechanic
Master electrician
Network/IT
PV module/array…
Journeyman…
Inspector
Inverter specialist
Cleaner
Administrator
0% 10% 20% 30%
NPV by Service Category0.0%
41.9%
52.1%
NPV by Activity
Administrative Preventive
Corrective
PV O&M Working Group September 13, 2016
NREL/Sandia/SunSpec Alliance
NREL/Sandia/SunSpec PV O&M Workgroup
Reduce the cost and increase the effec0veness of PV+Storage O&M through
best pracFces, actuarial data access, analyFc tools, and industry standards
Supported by the US Department of Energy SunShot Initiative, under Agreement #30346
3
PV OperaFon and Maintenance Working Group • Working Group: 81
confirmed members in manufacturing, development, EPC, financing, insurance, O&M Services, IE, and others
• Facilitator: Cass Whaley of NREL
EMAIL [email protected]
4
Efforts for 2016-‐2018
General InputsAnalysis Period (Project Life) 20 years (40 max) First Year O&M Costs ($/year) $4,404Discount Rate 7.00% % per annum First Year Unit O&M Costs ($/kW/year) $10Inflation Rate 2.00% % per annum Net Present Value O&M Costs (project life) $137,778Truck Rental Cost/ day $100 Net Present Value (project life) per Wp $0.31Working Hours/year 2,080
Note: Horz. axis range not yet dynamic
System InputsName of System Hypothetical Roof-‐mount System #1 Location Denver, CO System Type Grount-‐Mount Fixed Tilt (> 100kW)System Size (Wp DC) 440,000 Energy Yield (kWh/kWp/year) 1,596 Module Power (W STC) 305Number of Modules 1443Module Type/ Degradation Mulit-‐crystal Silicon:0.64%/yearModule Encapsulant Ethyl Vinyl Acetate (EVA)Modules per String 14Number of Strings 103Strings per Combiner Box 6Number of Combiner Boxes 18Combiner boxes per DC disconnect 1Number of DC Disconnects 18Inverter Type String Inverter Inverter Replacement Cost/ Wp $0.20 Number of Inverters 1Inverter Capacity (kWp) 400Number of Transformers 1Inverter Warranty (years) 10PV Module Product Warranty (years) 10Other equipment (EPC) Warranty (years) 10Purchased monitoring contract (years) 5 Enter '0' if not applicable
Ground Coverage Ratio (GCR) 33%Site Area (acres) 2.3
Modules/Row 14Total Rows: 103Rows per Tracked Block:(ignore untracked) 1Total Tracking Blocks:(ignore untracked) 103.0Foundations per row: (ignore rooftop) 1
Environmental ConditionsIndicate "1" if condition applies to project, "0" if not applicableSnow 0Pollen 0Bird Populations 0
Inputs Results
0.00
5.00
10.00
15.00
20.00
25.00
30.00
35.00
40.00
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
$'s (Thou
sand
s)
Project Year
Annual Cash Flow (Nominal)
0.0%
18.0%
1.2%
5.4%
10.8%
25.2%
0.0%
2.7%
17.5%
11.5%
1.6%
6.1%
Monitoring
Inverter
AC Wiring
Mechanical
DC Wiring
PV Module
Meter
Electrical
PV Array
Cleaning/Veg
Asset Management
Documents
0% 10% 20% 30%
NPV by Component
0.0%
1.1%
0.0%
9.0%
5.5%
0.0%
4.2%
2.7%
0.9%
7.8%
23.0%
13.0%
17.4%
5.9%
9.5%
Designer
Pest control
Roofing
Structural engineer
Mower/Trimmer
Utilities locator
Mechanic
Master electrician
Network/IT
PV module/array…
Journeyman…
Inspector
Inverter specialist
Cleaner
Administrator
0% 10% 20% 30%
NPV by Service Category0.0%
41.9%
52.1%
NPV by Activity
Administrative Preventive
Corrective
Best PracFces in PV System OperaFons and Maintenance PV O&M Cost Model oSPARC Actuarial Database PV ROM Reliability Data and Failure Analysis “Research” for Standards by IEC, ANSI, ASTM Standardized O&M service contract language; Availability Guarantee
5
PV O&M Best PracFces Guide • Title: Best PracFces in PV OperaFons and Maintenance • ObjecFve: Improve effec0veness and reduce cost of O&M by
documen0ng and sharing best prac0ces, provide “research” for IEC and ASTM standards, provide transparency for investors and framework for quality management; standardiza0on to reduce transac0on costs.
• Team: PV O&M Working Group • Status (FY 16 Accomplishments): revised with new content on
dependencies (ground/roof; tracking/fixed; micro/string/central inverter, etc), end-‐of-‐life issues, aerial inspec<on, roof issues, site prepara<on, and other new sec0ons. This will promulgate solu0ons iden0fied by working group to common problems.
6
Table of Contents 1 Introduc0on 1.1 Background; the O&M Working Group 1.2 Purpose 1.3 Complementary SAPC Documents 2 O&M and the Financing of PV Assets 3 Scope and Prerequisites for a Successful O&M Program 3.1 Scope of PV O&M Best Prac0ces Guide 3.2 Prerequisites for a Successful O&M Program 4 DefiniFons 5 Dependencies on PV System Type, Site and Environmental CondiFon 5.1 Electrical System 5.2 Central, String, DC Op0mized or Micro-‐inverter Configura0on 5.2.1 Central Inverter 5.2.2 String Inverters, Microinverters and DC Op0mized Inverters 5.3 Roof Maintenance related to PV System 5.4 Ballasted or A`ached Rack 5.5 Ground-‐mount 5.5.1 Design 5.5.2 Ground Cover 5.5.3 Vegeta0on Management 5.5.4 Cleaning 5.6 Tracking Mounts 5.7 Environmental Condi0ons 5.8 Site Access
6 System Performance and O&M Plans 6.1 Planning for PV System Performance 6.1.1 Performance Indicators 6.2 The PV O&M Plan 6.3 Use of O&M Plan 6.3.1 O&M Plan for Residen0al/Small Commercial PV Systems 6.3.2 O&M Plan for Larger Commercial and Industrial PV Systems 6.4 Document Management and Record Keeping 6.5 PV Plant Opera0ons 6.5.1 Forecas0ng PV Plant Output 6.5.2 Inventory of Spare Parts 6.6 Preven0ve/Scheduled Maintenance 6.7 Correc0ve Maintenance 6.8 PV Module Degrada0on Rate 6.9 Example Work Statements 6.10 End of Performance Period 7 O&M Provider QualificaFons and Responsibili0es 7.1 Qualifica0ons of Plant Operators 7.2 Qualifica0ons of Service Providers 7.3 Financial Solvency 7.4 Health and Safety 7.5 Insurance 7.6 Redundancy in Service Providers
7
Appendix A. System Performance Guarantee Example Calcula0on (without shade correc0on) Appendix B. Service Descrip0ons for Preventa0ve Maintenance Selec0ons Available in the PV O&M Cost Model Tool Appendix C. Service Descrip0ons for Correc0ve Maintenance Selec0ons Available in the PV O&M Cost Model Appendix D. PV O&M Service Category, Scope of Work, Salary, and Qualifica0ons Appendix E. Examples of Scope of Work DocumentsExample Performance Work Statement Example Descrip0on of Maintenance Services for Commercial Roolop Installa0ons Example Descrip0on of Maintenance Services for Commercial Ground Mount Installa0ons Example Descrip0on of Opera0ons Services
8 System Monitoring 8.1 DC Array Inspec0on 8.2 Data Presenta0on 8.3 Quality of Monitoring Equipment 8.4 Transparency of Measurement Protocols and Procedures 9 O&M SupporFng Systems and ImplementaFon Strategies 9.1 Instrumenta0on 9.2 Workflow and Decision Support Solware 9.3 O&M Implementa0on Strategies 9.4 O&M Contract and Performance Guarantee 10 EsFmaFng PV O&M Costs 11 Current PV O&M Cost Survey InformaFon References
8
• Subtask 2.1.1: Working Group Review/Revise Best Prac0ces Document and Cost Model
FY17 Plans and topics for group discussion
Metric Definition (From Measurement)
Success Value
Measured Value
Assessment Tool (Quality Assurance)
Project Evaluation Criteria 2.1.1
Collect formal stakeholder review and consensus on Best Practices and Cost Model
Track and resolve all comments
Documented response to each review comment
Signature page in Best Practices Document for Working Group Members
Milestone: O&M Best Prac0ces (financial and technical) Working Group. Consensus documented by September 30, 2017.
9
PV O&M Cost Model • Title: PV O&M Cost Model • ObjecFve: es0mate cost to deliver a PV O&M program
considering system configura0on and environmental condi0ons. This is needed for financial prospectus and to inform O&M decisions.
• Team: NREL; SunSpec Alliance; Sandia • Status (FY 16 Accomplishments):
o Spreadsheet Prototype: – Annual O&M Cost, – Net Present Value, – Reserve Account, – specific to PV project, size, type, and several environmental condi0ons.
10
10
Consider an example with 2 inverters… • Reserve Account sufficient to replace NEITHER of the two inverters:
Reserve Account: $0 P1P2 = P^N=(0.908)^2=0.824 (you get this level of confidence for free)
• Reserve Account sufficient to replace EITHER ONE of the two inverters: Reserve Account=$10,000 P1P2 + P1Q2 + P2Q1 = 0.824+(0.908*0.092)* 2 =0.991
• Reserve Account sufficient to replace BOTH of the inverters: Reserve Account= $20,000 P1P2 + P1Q2 + P2Q1 + Q1Q2 =0.666+0.300+ (0.092)^2=1.00
• The cost model is coded such that the desired confidence that the reserve account will be sufficient is an input, with a default of 0.95, and the calculaFon returns the required amount of Reserve Account
Confidence that Reserve Account is Sufficient
Reserve Account
0.824 $0
0.991 $10,000
1.000 $20,000
11
ExponenFal form of Polynomial Expansion
ConFnuous funcFon in the limit for very large N n/N = R^P/(1-‐P) n/N is the fracFon of the total number of components funded in the reserve account R is the desired confidence that the reserve account will be sufficient
1.0
0 0 1.0 R=desired confidence
n/N=frac0on
of com
pone
nts fun
ded in re
serve accoun
t
P-‐value
x-‐intercept = PN Availability with no Reserve Account
Exponen0al Polynomial Expansion
Comparison of Exponen0al for to full Polynomial Expansion with N=10.
12
CalculaFon of Reserve Account • Reserve Account
Annual Amount in reserve = N*(Cparts+ClaborH)*R^(P/(1-‐P)
• Also modified by: o Within analysis period? o Within warranty period?...type of warranty? o Fixed interval or Weibull distribu0on? o Yearly infla0on of costs.
• This is done for each measure in the PV O&M Cost Model (PV module replacement, inverter replacement…all) and added up to calculate the total amount in the Reserve Account for each year of the Analysis Period.
13
PV O&M Cost Model: Inputs
General Inputs Analysis Period (Project Life) 25 years (40 max) Discount Rate 7.00% % per annum Infla0on Rate 2.00% % per annum Desired Confidence that Reserve Covers Cost
0.92
Working Hours/year 2,080
14
PV O&M Cost Model: Inputs
System Inputs Name of System Ground Mount Fixed Tilt
Loca0on Denver, CO System Size (kWp DC) 10,000.0 Energy Yield Year 1 (kWh/kWp/year) 1,400.0 System Installed Cost $3,000,000 Module Efficiency 16.0% Module Power (W STC) 305 Array Area (m2) 62500 Number of Modules 32787
15
PV O&M Cost Model: Inputs System Inputs Module Type/ Degrada0on Mono-‐crystal silicon: 0.36%/year Degrada0on Rate per year 0.0036 Modules per String 14 Number of Strings 2342 Strings per Combiner Box 15 Number of Combiner Boxes 157 Combiner boxes per DC disconnect 1 Number of DC Disconnects 157
16
PV O&M Cost Model: Inputs Inverter Type Central Inverter Inverter Replacement Cost/ Wp $0.190
Number of Inverters 10.0 Inverter Capacity (kWp) 1,000.0 Number of Transformers 10.0 Inverter Warranty (years) 10.0 PV Module Product Warranty (years) 20.0
Other equipment (EPC) Warranty (years) 1.0
Purchased monitoring contract (years) 0.0
17
PV O&M Cost Model: Inputs Market Sector UFlity (1 MW) Moun0ng Loca0on Ground Mount Roof Slope Sloped, 4:12 Type of Roofing Material Composite Shingle Moun0ng Type Apached Inspec0on technique Arial Array Area per Roof A`achment (m2) 2.0
Number of Roof A`achments 31250 Ground Coverage Ra0o (GCR) 33% Site Area (acres) 52.6 Modules/Row 200 Total Rows: 164 Tracking or Fixed 1-‐axis Tracking Rows per Tracked Block:(ignore untracked) 16 Total Tracking Blocks:(ignore untracked) 10.2 Founda0ons per row: (ignore roolop) 10
18
PV O&M Cost Model: Inputs Environmental CondiFons Indicate "1" if condi.on applies to project, "0" if not applicable Snow 0
Pollen 0
Bird Popula0ons 0
Sand/Dust 0
Humid Not yet implemented
Hot Not yet implemented
High Wind Not yet implemented
Hail Not yet implemented
Salt Air Not yet implemented
Diesel Soot Not yet implemented
Industrial Emissions Not yet implemented
Construc0on Site Nearby Not yet implemented
High Insola0on Not yet implemented
19
Labor Rates
Service Category
Labor MulFplier (fully
loaded)
Loaded Rate ($/hour)
Scope of Work QualificaFons
Administrator
1.38
$23.00
Record-‐keeping, service confirma0on, correspondence
Excellent interpersonal and communica0on skills (wri`en and verbal). Diligent record keeping. 2 to 5 years of experience. Excellent MS Office and computer skills. Management of contractors and quality.
Cleaner 1.38
$14.74 Cleaning PV Arrays
10 OSHA Card; Required level of bonding and insurance; drivers license and reliable transporta0on; minimum 18 years old.
Inspector 1.38
$33.12
Diagnos0c analysis; visual inspec0on, specific tes0ng,
Diagnos0c analysis; NABCEP PV Installer Cer0fica0on; 2 to 5 years of experience.
Inverter specialist
1.38
$33.17
Inverter repair, upgrades
(es0mated) Skills to perform maintenance, diagnos0cs and repair for inverter: factory trained and cer0fied; 5+ years experience.
Roofing 1.38
$22.70
Roof leak repair, roof 0le repair, re-‐roof
Roofing contractor’s license for the jurisdic0on; 10 OSHA Card; safety training in fall protec0on equipment and use (or 50 OSHA Card); required level of bonding and insurance
Structural engineer
1.38 $55.82
Founda0ons and rack inspec0on/design
B.S. CE (4-‐year engineering degree); registered PE licensed to prac0ce engineering in the jurisdic0on.
Mower/Trimmer
1.38
$15.75
Removal of vegeta0on
50 OSHA Card; drivers license and reliable transporta0on; required level of insurance; minimum 18 years old; any required training or license for herbicide applica0on.
20
PV O&M Cost Model: Results
System Name Ground Mount Fixed Tilt
Results
Annualized O&M Costs ($/year) $148,960
Annualized Unit O&M Costs ($/kW/year) $14.90
Maximum Reserve Account $1,519,994
Net Present Value O&M Costs (project life) $2,120,222
Net Present Value (project life) per Wp $0.212
NPV Annual O&M Cost per kWh $0.013
21
LifeFme NPV by Service Type
Service Avg. Cost/Yr NPV (Life) % of Total Administrator $7,717 $88,635 4% Cleaner $23,710 $272,345 13% Inverter specialist $29,782 $268,749 13% Inspector $25,549 $287,353 14% Journeyman electrician $11,210 $577,877 27% PV module/array Specialist $26,303 $318,732 15% Network/IT $152 $1,531 0% Master electrician $4,790 $53,383 3% Mechanic $2,207 $54,082 3% Designer $0 $0 0% Pest control $1,614 $18,536 1% Roofing $0 $0 0% Structural engineer $6 $69 0% Mower/Trimmer $15,574 $178,884 8% U0li0es locator $4 $44 0% Total $148,620 $2,120,222 100%
PV O&M Cost Model: Results
22
LifeFme NPV by Component Type
Component Avg. Cost/
Yr NPV (Life) % of Total AC Wiring $2,055 $22,299 1% Asset Management $4,549 $52,249 3% Cleaning/Veg $39,266 $451,019 22% DC Wiring $32,955 $416,043 20% Documents $3,115 $35,784 2% Electrical $1,796 $20,351 1% Inverter $30,637 $277,164 13% Mechanical $5,317 $53,304 3% Meter $18 $205 0% Monitoring $3 $18 0% PV Array $11,839 $135,644 7% PV Module $5,127 $520,071 25% Roof $0 $0 0% Tracker $7,548 $86,694 4% Transformer $4,395 $49,377 2% Total $144,224 $2,070,844 100%
PV O&M Cost Model: Results
23
PV O&M Cost Model: Results
$0
$200,000
$400,000
$600,000
$800,000
$1,000,000
$1,200,000
$1,400,000
$1,600,000
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39
Annual Cash Flow
Reserve Account
24
• Subtask 2.1.3 Update Web Applica0on for PV O&M Cost Model
FY17 Plans and topics for group discussion Tom Tansy SunSpec Alliance
Project Evaluation Criteria 2.1.3
Update Web Application to collect and analyze O&M Cost Model data
Data into O&M Cost Model web application by system operators.
At least one operator using O&M Cost Model web application
Record in O&M Cost Model web application and populated by data from at least one operator
Subtask 2.1.3 Develop O&M Cost Model web applica0on. Released to the public by March 31, 2017.
25
CURRENT IMPLEMENTATION
• Spreadsheet
• O&M cost esFmaFon limited to a single PV system
26
PV O&M Cost Model NEW REQUIREMENTS
§ User management § Plant management § Cost model management § System Analysis
27
PV O&M COST MODEL WEB APPLICATION
• Built on top of the web service
• Responsive web design
• CompaFble with Chrome, Firefox, Safari and Internet Explorer
UI WIREFRAME SNAPSHOT
28
PV O&M Cost Model –
• Project Well Under Way • Beta Program in Q1 2017
29
FY17 Plans and topics for group discussion
oSPARC – Tom Tansy , Separate PresentaFon
30
Failure Data and Analysis -‐ Geoff Klise Sandia • ObjecFve:
o Develop PV component fault and failure distribu0ons for input into the O&M Proforma Cost Model
• Team: o Geoff Klise – Sandia Na0onal Labs o Olga Lavrova – Sandia Na0onal Labs
• Status (FY 16 Accomplishments)
o Developed proof-‐of-‐concept improvements in the failure modeling area of the O&M Proforma Cost Model
o In FY 16, gained access to, and compiling event data on ~200 PV systems, represen0ng over 850 MWdc of PV systems in 3 Western states, 7 far Midwestern/Eastern states and Hawaii. 75% u0lity, 25% DG
o This data includes events from inverters, modules, transformers and other BOS equipment. Access to modeled and performance metrics
31
Failure DistribuFon Framework – 26 MW PV array component
Failure mode Failure distribution (Weibull, PowerLaw, LogNormal, Uniform, Poisson)
Failure distribution parameter 1. Alpha for Weibull (or characteristic life) . All parameters are in time scale of years
Failure distribution parameter 2. Beta for Weibull (or shape). All parameters are in time scale of years
Failure distrub parameter 3 (if needed)
O&M action preventing this failure
Expected outage time (in hours) -‐ this is how severe each event is
Cost of failure, $ (energy lost kWh/year/component+cost of corrective action + cost of any other cosequences)
MLE (Expected) Cost of failure, $ (energy lost kWh/year/component+cost of corrective action + cost of any other cosequences)
Activity cost less than expected energy loss? (1=yes, 0=no)
Activity executed (1=yes, 0=no)
Firmware malfunction/
failureUniform 0.2
Upgrade firmware, follow manufacturer's
firmware instructions
8 $ 200 $ 40 FALSE FALSE
Firmware malfunction/
failureUniform 0.2
Start/stop inverter (reboot
to clear unknown error), lost internet connection
0.01 $ 0.25 $ 0.05 FALSE FALSE
Power Electronics
failure (covered by warranty)
Weibull 3 8 Inverter inspection
1488 $ 37,200 $ 73 1 1
Power Electronics failure ( not covered by warranty)
Weibull 3 8Inverter inspection
1488 $ 37,200 $ 73 1 1
Inverter other component failure (not power
electronics or
Weibull 1 1.5
Clean (vacuum) dust from
heat rejection fins
56 $ 1,400 $ 681 1 1
Inverter
32
• Porsolio A System event data – High level
• ~300 unique events • unknown faults or not properly characterized
• snow, water, lightning
• u0lity planned/unplanned repair & grid disturbance
• Annual PM, coolant check, filter cleaning, module replacement, thermal imaging
33
• Porsolio B System Data – High level
We are s0ll working on compiling event data
32 DG sites, distribu0on below
34
• Porsolio C System Data – High level
We are s0ll working on compiling event data
47 U0lity and DG sites, distribu0on below
35
• Only 1 inverter mfg. shows up in the top 3, for three out of three por|olios o First, second and third depending on por|olio
• Only 1 module mfg. shows up in the top 3 for two out of three por|olios o Second for both por|olios
Comparisons Between 3 porsolios
36
• Con0nue to analyze opera0ons data to develop failure sta0s0cs and insights into O&M ac0vi0es
• Reach out to other por|olio owners for data
• Topics for discussion: o What kind of failure modes are you seeing for your projects? o What type of compara0ve analysis would be useful for showcasing na0onal-‐level results of system failure/events?
FY17 Plans and topics for group discussion
37
Standards Development – Roger Hill • Title: IEC Technical Specifica0on 63019: Availability of PV Power Sta0ons
• ObjecFve: Define a common basis for exchange of informa0on on availability metrics between owners, u0li0es, lenders, operators, manufacturers, engineer/procure/construct firms, designers and specifiers, consultants, regulatory bodies, cer0fica0on bodies, insurance companies and other stakeholders
• Team: Roger Hill, Project leader and over 40 industry and interna0onal experts with regular biweekly web conferences
• Status: Intermediate dral produced
38
Standards Development IEC 63019 -‐ Technical SpecificaFon for Availability of PV Power StaFons
• Defines a common basis for exchange of informaFon • Address performance metrics: Time and ± producFon (measured and lost) • Provide an informaFon model specifying how Fme designaFons shall be allocated
into informaFon categories.
Data/Stakeholders
Whose clock is it on? What did we get? What did we expect?
• About three dozen energy professional in US • About half a dozen interna0onally • Ge}ng Organized/Periodic Drals
Stakeholders, defini0ons, boundaries, info categories & availability/performance nexus
• Harmonizes with IEC 61724 and Wind 61400 • Expect comple0on midyear in 2017
(Event) InformaFon Categories -‐Full Performance -‐Par0al Performance -‐Services Set Points -‐Technical Standby -‐Out of Environmental -‐Requested Shutdown -‐Out of Electrical -‐Scheduled maintenance -‐Planned Correc0ve Ac0on -‐Forced Outage -‐Force Majeure
(These categories can apply to Any component, subsystem, System-‐even grid for accoun0ng)
Roger Hill, Project leader: [email protected]
It will address: • Utility sector KPIs • Unavailability • Unreliability • Asset management metrics
How often? How long? How much?
Failure States
Maintenance, & other States
Production Reporting
Performance Modeling
The InformaFon Model
39
InformaFon categories Mandatory level 1
Mandatory level 2
Mandatory level 3
Mandatory level 4
Op0onal level 5
INFO
RMAT
ION AVA
ILAB
LE
OPERA
TIVE
IN SER
VICE
FULL PERFORMANCE PARTIAL PERFORMANCE Derated
Degraded
SERVICES SET POINTS
OUT OF SERV
ICE
TECHNICAL STANDBY OUT OF ENVIRONMENTAL SPECIFICATION
Irradiance below threshold
Other environmental
REQUESTED SHUTDOWN
OUT OF ELECTRICAL SPECIFICATION
NON-‐OPERA
TIVE
SCHEDULED MAINTENANCE PLANNED CORRECTIVE ACTION
Retrofit Upgrade
Other correc0ve ac0on
FORCED OUTAGE Response Diagnos0c Logis0c
Failure repair
SUSPENDED Scheduled maintenance
Planned correc0ve ac0on
Forced outage
FORCE MAJEURE INFORMATION UNAVAILABLE
40
Standards Development • NormaFve secFons draved (systems engineering exercise) • InformaFve secFons will address (lustrate methods) on issues in annexes
o OpFonal categories o VerificaFon Scenarios o Availability EquaFons and CalculaFons o Soiling, Snow o Reliability Dependability, DegradaFon o Capacity, redundancy, modularity, masking o CondiFon Monitoring o Set Point OperaFon o Lost Data /synthesized data o OperaFng, Design, and Component SpecificaFons
• Related PVO&M referred for consideraFon i.e. other IEC, IECRE, ASTM • Drav for 63019 internaFonal vote in late Spring 2017
FY17 Plans and topics for group discussion
41
• Andy Walker NREL • Tom Tansy SunSpec Alliance • Geoff Klise Sandia Na0onal Laboratories • Roger Hill
PV O&M Work Group Panel Q and A