new jersey’s clean energy program 2010 mandatory new … · 2010-08-17 · • an (s)rec is a...
TRANSCRIPT
New Jersey’s Clean Energy Program
2010 Mandatory NEW Installer Training
1. Electricity Fundamentals
2. Rebate Application Process
3. Payment and SREC Process
4. Installation Standards
5. Inspection standards
6. Utility Finance programs
Presentation Overview
Training Objectives
Electricity Fundamentals
Load(watts)
Duration(hr)
Usage(kwh)
Electric rate($/kwh)
Billed Amount($)
1 .060 0.109 .01
1 1.00 0.109 .11
Load(kw)
60
.060
11000
Household Load Economics
Electricity Fundamentals
Customer
Representation of Conventional Electricity Production
Heat Source
Boiler
Turbine/Generator
Wires(kw)
(kw hrs)
Electricity Fundamentals
Electric Industry Value Chain
Electricity Fundamentals
Customer
Electric Industry Value ChainElectricity Production
Heat Source Boiler Turbine/Generator Wires
Fuel OtherProduction Trading Transmission Distribution
Electric Industry Value Chain
GenerationLoad Serving Entities (LSEs)
Generation Companies (Gencos)
T&DEnergy Distribution Companies (EDCs)
Distribution Companies (Discos)
Transmission Companies (Transcos)
Retail/Energy ServicesEnergy Services Companies
(Escos)
(Function of Line Voltage)
Electricity Fundamentals
Regulatory Jurisdiction
Fuel OtherProduction Trading Transmission Distribution
Value Chain Jurisdictions
FERC
RTO / ISO
BPU
National
Regional
State of NJ
Office of the GovernorState of NJ
“Energy Master Plan”
“OCE Programs”
Regulatory Entities
Electricity Fundamentals
Representation of Conventional Centralized Electricity Generation
Power Plant
Transmission
Distribution
Electricity Fundamentals
Representation of Distributed Electricity Generation
Power Plant
Transmission
Distribution
Electricity Fundamentals
New Jersey ProfileToday (6/30/2010)• 180.8 MW PV solar
• 6281 installs • 30.9 MW Biomass• 7.9 MW Wind• 1.5 MW Fuel Cells
Tomorrow• 1,600 MW Solar• 3,000 MW Offshore
Wind• 200 MW Onshore Wind• 900 MW Biomass
Government ActivismEnergy Master Plan NJ RPSBPU commitment
Renewable Resources• Wind:
• Shore, highlands• Sustained winds of 11 mph
• Solar: • Output ~1200 kWh AC
• Biomass• Includes LFG, WWT, wood
residue, food waste and aggregation of resources
Electricity Fundamentals
New Jersey’s Renewable Portfolio Standard
Electricity Fundamentals
State Amount Year
Arizona 15% 2025
California 20% 2010
Colorado 20% 2020
Connecticut 23% 2020
District of Columbia 11% 2022
Delaware 20% 2019
Hawaii 20% 2020
Iowa 105 MW
Illinois* 25% 2017
Massachusetts 4% 2009
Maryland 9.5% 2022
Maine 10% 2017
Minnesota 25% 2025
Missouri* 11% 2020
Montana 15% 2015
New Hampshire 16% 2025
New Jersey 22.5% 2021
New Mexico 20% 2020
Nevada 20% 2015
New York 24% 2013
Oregon 25% 2025
Pennsylvania 18% 2020
Rhode Island 15% 2020
Texas 5,880 MW 2015
Vermont* 10% 2013
Virginia* 12% 2022
Washington 15% 2020
Wisconsin 10% 2015
Currently there are 24 states plus the District of Columbia that have RPS policies in place. Together these states account for more than half of the electricity sales in the United States. Four other states, Illinois, Missouri, Virginia, and Vermont, have nonbinding goals for adoption of renewable energy instead of an RPS.
U.S Renewable Portfolio Standard (RPS) RECs (Renewable Energy Credits) are a market mechanism to track and trade attributes of renewable energy
Renewable Energy and Clean Energy DefinitionsRenewable Generation
vs.
Clean Energy
WindSolarFuel CellsWave/TidalBiomassGeothermalHydro
WindSolarFuel CellWave/TidalBiomassGeothermalHydroNuclearClean Coal (IGCC) Coal TrailingsTire Burners
The definitions vary from state to state program to program
ConventionalGeneration
No Carbon Footprint
Addresses an existing environmental issue
In absence of Federal legislation states have required that certain percentages of their load be derived from
renewable or clean energy sources. These requirements are called Renewable Portfolio Standards.
Electricity Fundamentals
306.0442.0
596.0772.0
965.01,150.0
1,357.01,591
1,8582,164
2,518
2,928
3,433
3,989
4,610
5,316
-
1,000.0
2,000.0
3,000.0
4,000.0
5,000.0
6,000.0
2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026
Y ear
MkW
h
New Jersey’s RPS Requirement for Solar (GWhs) per A3520
Electricity Fundamentals
NJ Class I Renewable Energy
• Solar technologies, photovoltaic technologies, wind energy, fuel cells powered by renewable fuels, geothermal technologies, wave or tidal action,
• and/or methane gas from landfills or a biomass facility, provided that the biomass is cultivated and harvested in a sustainable manner.
• Types of class I renewable energy that qualify for use in meeting the requirements of this subchapter are set forth at N.J.A.C. 14:8- 2.5.
Electric energy produced from:
Electricity Fundamentals
Solar Renewable Energy Certificates (SRECs)
• One SREC certificate given per MWh of solar electricity produced
• Certificates traded on the open market
• SRECs ultimately are purchased by the power generators (Load Serving Entities - LSEa) to offset their requirement to produce Clean Energy
• SRECs are generated for 15 years. After that they automatically convert to Class 1 RECs
(S)REC Value Driver
Electricity Fundamentals
(S)REC ProductionThe cumulative (S)REC production created during the course of a year is obtained from the program meter – cumulative production or may be estimated for smaller systems Each time a renewable energy electric system generates 1000kWh (1MWh) of electricity, an (S)REC is issued which can then be sold or traded separately from the power.
• An (S)REC is a tradable certificate that represents all the clean energy benefits of electricity generated from a renewable energy system.
• (S)RECs must be traded, monetized, retired in a defined period otherwise they expire. SRECs have a two energy year trading life (A3520 extends that to a three year trading life)
Calendar Year
Energy Year
2009 2010 2011 2012
2009 2010 2011 2012
Electricity Fundamentals
$520$540$560$580$600$620$640$660$680$700$720
2009 2010 2011 2012 2013 2014 2015 2016
Energy Year
$ M
Wh
New Jersey Solar Market Transition SACP/SREC Schedule
SACP
The SACP declines gradually over an eight year time horizon
Electricity Fundamentals
The A3520 legislation that sets the SACP over a 15 year time horizon
SREC Quantity Monthly Cumulative
Month YearActive kW
DCIssued in
MonthTraded in
MonthHigh
($/MWh)Low
($/MWh)
# of SRECs Traded
Weighted Avg Price ($/MWh)
May 2010 132,956 16,504 8,737 $ 700 $ 170 75,917 $578.80
Apr 2010 124,159 12,548 6,773 $ 700 $ 65 67,178 $573.77
Mar 2010 120,848 5,814 9,522 $ 700 $ 209 60,405 $568.66
Feb 2010 112,183 6,784 9,720 $ 685 $ 170 50,883 $552.69
Jan 2010 103,694 5,249 11,731 $ 675 $ 110 41,163 $533.15
Dec 2009 100,083 7,862 7,582 $ 700 $ 195 29,432 $566.91
Nov 2009 97,482 6,192 7,292 $ 688 $ 170 21,850 $559.45
Oct 2009 93,402 8,085 7,004 $ 680 $ 170 14,558 $549.84
Sept 2009 92,015 8,796 5,119 $ 700 $ 170 7,554 $524.90
Aug 2009 89,660 10,320 2,435 $ 685 $ 170 2,435 $492.18
Jul 2009 83,807 6,626 Due to low trade volume, the July trades are reported with the cumualtive pricing data starting in August.
Total 94,777 75,915
RY10 SREC Prices as of May 2010
Net-Metering and Interconnection Standards
Interconnection• State regulations that permit small generators (< 2MW - AC) to be installed behind
the meter.• These generators cannot be sized to over produce based on current site
consumption.• Mandates that utilities connect them to the grid.
Net-Metering• State regulations that allow interconnected generators to offset their electric
consumption with an on-site resource.• Allows production of electricity beyond site consumption to be sold to the grid and
be compensated at the wholesale price of energy.
Electricity Fundamentals
New Jersey’s Energy Master Plan
2006 2020
Conventional Generation
MW
Hs
of E
nerg
y D
eman
d
80,000
100,000
Expected Growth, Business as Usual and Existing Levels of Energy Efficiency
Energy Master Plan Goals
Conventional Generation
2006 2020
Conventional Generation
Energy Efficiency
MW
Hs
of E
nerg
y D
eman
d
80,000
100,000
Expected Growth, Business as Usual and Existing Levels of Energy Efficiency
Goal with 20% Efficiency 80,000
Energy Master Plan Goals
Conventional GenerationConventional Generation
Energy Efficiency
2006 2020
Conventional Generation
Renewables
Energy Efficiency
MW
Hs
of E
nerg
y D
eman
d
80,000
100,000
Expected Growth, Business as Usual and Existing Levels of Energy Efficiency
Goal with 20% Efficiency 80,000
52,000
Goal with 30% Class I Renewables, 2.5% Class II Renewables
Energy Master Plan Goals
Residential Electric Rate
Value Chain as a Function of the Residential Electric Rate
Fuel OtherProduction Trading Transmission Distribution
Electricity Fundamentals
BGSBasic Generation Service
$ Pe
r kW
hExcess DepreciationSales TaxTEFAMTC TaxNTC-NUGSTCSBCBGSDistribution
Residential Electric
Rate
$ Pe
r kW
h
Excess DepreciationSales TaxTEFAMTC TaxNTC-NUGSTCSBCBGSDistribution
Residential Electric
Rate
SBC (Societal Benefits Charge) ~3%Social ProgramsNuclear Plant DecommissioningMGP remediation (RAC)Consumer Education ProgramsUniversal Service FundDSM and EE programs
Electric Discount and Energy Competition Act, (EDECA) established requirements to advance energy efficiency and renewable energy in New Jersey through the societal benefits charge (SBC). EDECA further empowered the Board to initiate a proceeding and cause to be undertaken a comprehensive resource analysis of energy programs, currently referred to as the comprehensive energy efficiency (EE) and renewable energy (RE) resource analysis.
REIP ProgramsHome Performance Program
Electricity Fundamentals
Residential Electric Rate and the Residential Electric Bill
Review of Organization Roles and Responsibilities
• Honeywell team members:
• Conservation Services Group
• MaGrann Associates
• Vermont Energy Investment Corporation
Honeywell Market Manager Team
Assumed responsibility for providing market manager services to renewable and residential energy efficiency programs in early 2007.
Team composition
Program offices and full time New Jersey based staff dedicated to the success of the Clean Energy Programs
Electricity Fundamentals
New Jersey Clean Energy Program Management
Electricity Fundamentals
Contacts
Initial application processing Theresa Heller at [email protected]
Program questions and installer liaison Joananne Bachmann at [email protected]
Program Inspections, training registration and NJ Certification Numbers
Melissa Smith at [email protected]
Rebate Processing Cynthia Surman at [email protected]
Electricity Fundamentals
Renewable Energy Committee Meetings: Second Tuesday of each month, REC meeting held at CSG’s Iselin, New Jersey office. Discusses general administration issues associated across all New Jersey renewable energy programs.
Solar (Wind) Technical Working Group: Second Monday of each month to discuss and review technical issues associated with the implementation of the solar CORE and SREC pilot programs.
Forums
RE Listserve: Information in the registration email has a link and here it is again http://mail.njcleanenergy.com/mailman/listinfo/Renewables The Listserve give you the most up to date Program information on the Various Stakeholder Processes
Electricity Fundamentals
Economics and Business Model
Solar 101
Grid – Connected PV System
Electricity Fundamentals
Why is Solar so popular?
NJCEP Rebate
Federal Investment Tax Credit
Energy - Saving
SRECs Inbound cash flow based on the actual production of energy from the
system
Capital Cost of System- Large initial investment
O & M-Minimal maintenance
1 15 . 25 .
Year
Cash Outflow
Cash Inflow
Insert Residential Home
New Jersey Residential 7.5 kw Solar PV Electric System
Approximate Installed Cost: $50,000
NJCEP Rebate: $5,625
Electric annual cost savings:
$1,350/ yr
SRECs annual income $4,500
Out of Pocket Expense :$31,062
Total annual savings: $5,850
Federal Tax Credit: $13,313
Simple Payback Period: 5.3 yrs
New Jersey Commercial 1,000 kW Solar PV
Electric SystemApproximate Installed Cost: $5,000,000
NJCEP Rebate: $0
Annual electric cost savings / Net Metering:
$170,000/ yr
SRECs annual income:
$625,000 / yr
Net Investment Expense:
$3,500,000
Total annual savings: $795,000
Federal Tax Credit:
$1,500,000
Accelerated Depreciation:
5 years
Simple Payback Period on Cash Deal : 4.4 years
Return on Equity if Financed: up to 20%
Rebate Application Processes
Installation standardsAnd
Inspection Protocols
• All applicants for grid-connected systems must submit an Interconnection Application to the appropriate utility company.
• Interconnection applications are subject to review by the utility company and must comply with all utility interconnection requirements.
• Interconnection applications should be submitted when applying for the REIP or SRP to ensure no costs are incurred for the interconnection
• A copy of the Interconnection Application must be provided to the REIP Program as a condition of final rebate processing.
Utility Interconnection
Installation Process
1. Modules must be UL 1703 or equivalent listed and be properly installed as per manufacturers instructions
2. The maximum amount of sunlight available on a year-round basis must not be obstructed
Solar Electric Module Array Requirements
REIP Additional Installation Requirements
3. The system must adhere to a minimum design threshold using PVWATTS• Systems must be 80% of default calculated by PVWATTS• Performance < 80% but >= 70% will get a prorated rebate i.e. 75% will
get 75/80 of the rebate or 93.75% of the full rebate• Building integrated solar systems must be 40% of default calculated by
PVWATTS4. All modules installed in a series string must be installed in the same plane
Installation Process
1. The inverter must be properly installed as per manufacturers instructions.2. The inverter must be certified as compliant with requirements of IEEE929 for
small photovoltaic systems and with UL 1741.3. The system must be equipped with on/off switch, operating mode indicator,
operating status indicator AC/DC over current protection.4. Warning labels must be posted on the control panels and junction boxes
indicating that circuits are energized by an alternate power source and the DC Disconnect must also have the system information.
5. Operating instruction must be posted near the system.
Inverter and Controls
REIP Additional Installation Requirements
6. Systems must have monitoring capability that is readily accessible to the owner and must monitor (meter or display) at minimum instantaneous and cumulative production.
installation Process
1. Areas where wiring passes through ceilings, walls, or other areas of the building must be properly restored, booted and sealed.
2. All interconnecting wires must be copper. (Some provisions may be made for aluminum wiring – this will require approval from utility engineering departments prior to acceptance.)
3. Thermal insulation in areas where wiring is installed must be replaced to “as found or better condition”. Access doors to these areas must be properly sealed and gasketed.
Control Panel to Solar Electric Array Wire Runs
REIP Additional Installation Requirements
Installation Process
1. The battery storage system must be installed according to manufacturer’s instructions.
2. Battery terminals must be adequately protected from accidental contact.3. DC-rated over-current protection must be provided.
Batteries (If Applicable)
REIP Additional Installation Requirements
installation Process
REIP Solar Electric Systems Externalities.Installation requirements
Systems to be installed in accordance with:• Manufacturers recommendations• Program requirements• National Electric Code• Be consistent with final project documentation
WarrantiesAll inclusive warranty for at least 5 years from the date of installation
Must cover all major components for:Break down Degradation in electrical output of more than 10% originally rated
outputWarranty may be provided by manufacturer for equipment in conjunction
with the installer for installation. Be aware how long the Mfg warranty is and know that you have the full five years of coverage.
Owner’s manual with warranty documentation must be provided to the customer.
Inspection Process
Mounting Systems
Installation Standards
Mounting Systems
Installation Standards
Mounting Systems
Installation Standards
Mounting Systems
Installation Standards
Mounting Systems
Installation Standards
Mounting Systems
Installation Standards
Mounting Systems
Installation Standards
Racks & Mounting
Installation Standards
Racks & Mounting
Installation Standards
INVERTERS
Installation Standards
INVERTERS
Installation Standards
INVERTERS
Installation Standards
COMBINERS
Installation Standards
PROJECT OVERVIEW
Installation Standards
PROJECT OVERVIEW
Installation Standards
PROJECT OVERVIEW
Installation Standards
PROJECT OVERVIEW
Installation Standards
PROJECT OVERVIEW
Installation Standards
PROJECT OVERVIEW
Installation Standards
PROJECT OVERVIEW
Installation Standards
PROJECT OVERVIEW
Installation Standards
PROJECT OVERVIEW
Installation Standards
SELF INSTALLS
Installation Standards
SELF INSTALLS
Installation Standards
SELF INSTALLS
Installation Standards
SELF INSTALLS
Installation Standards
SELF INSTALLS
Installation Standards
The Inspection Protocol
Inspection Process
RE Inspection Process - Quality Control
Quality Control serves as a check to ensure specific parameters of renewable energy installations have been achieved.• Installer registration process• Inspection process• Installation particular monitoring and evaluation
All RE systems require and inspection and must receive a PASS status
Inspection Process
Quality Assurance - define processes throughout program lifecycle to ensure quality standards
RE Inspection Process - Quality Assurance
• Certification process• Inspection process • Monitoring and
evaluation process
Inspection Process
QA Summary – A Three Pronged Approach
Quality Assurance Program
Registration Process Evaluation Process Inspection & Monitoring Process
• Administrative Training
• Registration as a Program Certified Trade Ally
• Demonstration of Performance
• Demonstrated Proficiency
• Submission Requirements:
– Photograph of RE system
– PVWatts analysis
– Shading analysis (Google Earth)
– Metering worksheet
– Final “As Built” Packet
• Reduce Inspection Ratio in aggregate from 100% to 50% (~70% on average for 2009)
• Monitor installer community for proficiency
Inspection Process
QA Transition – Inspection Thresholds
Inspection Selection Criteria
Criteria for Inspection SelectionQA - Rebated Inspection Ratio 20-30%
QA - Non-rebated Inspection Ratio 20%Inspection Ratio per Installer (> 3 inspections) 10% Minimum
Utility Project Inspection Ratio 100%Self-Install Inspection Ratio 100%
QC Inspection Ratio 100%
Inspection Process
REIP “As built” Packet
The following items are deemed as critical failures:
• Number of modules and total system size in W-dc
• Orientation in degree TRUE +/- 5 degrees
• System tilt in degrees +/- 3 degrees
• System shading in percent +/- 3%
• System production from PVWATTS in kWh +/- 3%
• Either the installer or the program inspector has to reach the 80% performance standard to receive the full rebate and be within the tolerance specified
Inspection Process
Inspection Process
Inspection Process
Inspection Process
REIP “As built” Packet– Shading Analysis
Submit a shading analysis for the installation. If there is no shading on the system an alternative to the shading analysis is available by submitting a satellite view of the location of the solar electric system and attest by signing Section E that no shading exists on the system at the time of installation.
Inspection Process
Shade Analysis is Critical to Solar System Performance
• Solar systems consist of series connections of modules called “strings”.• Shading on just a small section of a (crystal silicon) module dramatically
reduces the output of the module and even the entire string.
“Short of outright physical destruction, hard shadows are the worst possible thing you can do to a PV module output.”
- The Solar Living Source Book
Inspection Process
First Step in Proper Solar Design
• Initial Sales Visit– Perform preliminary shade analysis as basis for sales bid.– Discuss trimming of trees and relative merits of different site locations.
• Design/Install Time– Perform detailed shade analysis to determine optimal location and
orientation of panels.– Shade analysis must be taken at the outside corner of each array i.e.
three roofs, three arrays, three shade analysis– Off-grid optimized for annual solar access.– On-grid optimized for peak rate periods.– Combine modules with similar shading together in single string.
Inspection Process
Even a small degree of shadowing can seriously reduce productivity.
Shading Analysis - Installation Considerations
To account for shading the program utilizes a number of tools.
• Satellite Imagery• Solar Pathfinder• Solmetric SunEye
Inspection Process
Satellite Imagery on the ComputerLocal Live also offer a “Birdseye View” which is very useful.
Shading Analysis - Tools of the Trade
Inspection Process
Shading Analysis - Tools of the Trade
Inspection Process
Solar PathFinder:Identifies shadowing problems by tracking the path of the sun.
Shading Analysis - Tools of the Trade
Inspection Process
Solar PathFinder:An elegant solution to a complex problem.
Shading Analysis - Tools of the Trade
Inspection Process
Shading Analysis - Tools of the Trade
Inspection Process
Shading Analysis - Tools of the Trade
Inspection Process
Shading Analysis - Tools of the Trade
Inspection Process
Quick and Accurate Shade Analysis -- The Solmetric SunEyeTM
Integrated handheld measurement device that accurately measures solar access and shading with the press of a button.
Inspection Process
Simple to Use
Use built in compass and bubble level to orient SunEye level and toward magnetic south and level.Press the button!
Inspection Process
Annual Sunpath ViewThe SunEye automatically…
– captures fish-eye image– superimposes correct
sunpaths based on latitude
– Accounts for magnetic declination
– Detects shade-causing obstructions
– Accounts for panel tilt and azimuth
– Calculates solar access percentages
Inspection Process
Monthly View
• View the solar access as monthly, seasonal, or annual data.
• Automatically calculates average solar access for multiple skyline readings.
Inspection Process
Summary -- Key SunEye Features
• Accurate, repeatable shading measurements of actual site.
• Easy to learn.• Easy to use.• Instant on-site results.• Simple transfer of data to PC.• Powerful features for advanced
analysis.
Inspection Process
Solar Access Annual
• Information needed for program performance qualification.
• Average of the annual solar access from the four corners.
• PV watts using all defaults except system size (100%).
• PV watts with as built size, tilt, and orientation.
Inspection Process
Ideal - Default PVWATTS
Inspection Process
Inspection Process
Ideal System Performance - PVWATTS
Inspection Process
As BuiltInspection Process
Inspection Process
As Built
Inspection Process
As Built
Derate changes permitted in PVWATTS
There are only THREE derates that are acceptable
• Shading based on documentation submitted with As Built Technical Worksheets
• Module Efficiency• Inverter Efficiency
Inspection Process
REIP Final Documentation – RE System Photograph
Representative photographs of the system array(s) and the inverter(s)
using5” X 7” 300 DPI Photo
Inspection Process
SREC Reporting Requirements
REIP Program
Non-Residential Rebated Residential Rebated Non-Rebated
< 10 kW > 10 kW < 10 kW > 10 kW < 10 kW > 10 kWREC production metered (ANSI C.12)Accuracy standard of 5%
REC production metered (ANSI C.12)Accuracy standard of 1%
REC may be metered. Eligible to report based upon estimated performance.
REC production metered (ANSI C.12)Accuracy standard of 1%
REC production metered (ANSI C.12)Accuracy standard of 5%
REC production metered (ANSI C.12)Accuracy standard of 1%
Self reported to REC Administrator
Self reported to REC Administrator
Self reported to REC Administrator
Self reported to REC Administrator
Self reported to REC Administrator
Self reported to REC Administrator
Inspection Process
REIP Final Documentation – Metering Worksheet
Inspection Process
The REIP Program Inspection goals are:
• To ensure the best design and installation practices are followed in accordance with manufacturers recommendation (Including racking)
• To ensure that systems meet the minimum requirements of the REIP program
• To verify consistency of installed systems with specifications provided to the REIP Program via rebate application forms and the As Built Technical Worksheet
• Systems installed conform with all Program Rules.
REIP Program Inspections
Inspection Process
1. Verify that equipment qualifies for participation in the Program and is as specified on the inspection work order form.
2. Verify – Tilt, Orientation and Shading3. If necessary analyze expected performance using PVWATTS and shading
analysis tools4. Verify system operates properly
PLEASE NOTE: • If there is inclement weather our inspectors may reschedule the inspection. • It is the owners/installers responsibility to remove snow from the roof to
make sure the system turns on. If the system does not operate upon our arrival the system will receive a FAIL.
REIP Program Inspection Responsibilities
Inspection Process
1. REIP inspections shall typically be scheduled within 10 business days of receiving an inspection request. And will be scheduled within a two week period
2. Inspection will be scheduled with the property owner. The installer shall be notified of all inspections.
3. For installations greater than 10 kW or on inspections where special equipment is required, the inspection will be scheduled with both the property owner and the installer.
4. The REIP program provides for the first inspection free of charge. Any further inspections will be subject to a fee of $200 per additional inspection to be subtracted from the total rebate amount.
REIP Inspection Guidelines
5. Within 10 business days of performing the inspection a status of “pass” or “fail” will be assigned. Should deficiencies be found during the inspection and these deficiencies resolved within the 10 day window a second inspection will not be required.
Inspection Process
1. Code Inspection complying to the provisions of the NEC by a state-licensed inspector is mandatory.
2. Submittal of the local jurisdiction’s UCC certification shall be accepted as evidence of passing the local inspection.
3. Program inspectors will continue to review NEC requirements and will communicate egregious violations to the local inspector.
REIP Additional Inspection Requirements
Code Requirements
Inspection Process
Local Code Inspections
1. Local code inspectors perform inspections relevant to NEC requirements.
2. Local code inspections shall be scheduled after the REIP program inspection.
As evidence of passing the local code inspection, the homeowner or the installer shall submit a copy of the local jurisdiction’s UCC certification to the REIP Program Manager for final rebate processing.
Inspection Process
Registration as a Trade AllyIn order for a company to be listed as a registered installer the following criteria must be met:
• They must have passed three installations through the NJCEP for the relevant technology they are requesting the listing
• The can legally conduct business in New Jersey• They have met the minimum insurance requirements as defined
by the Division of Consumer Affairs• If performing residential installations a copy of the Home
Improvement Contractors Registration is on file with the Market Manager. If you are an electrical Contractor licensed in NJ you are still required to supply the HIC
Inspection Process
Utility Finance Programs
Approximately 40% - 60% of the total installed cost is loaned.
The Loan is paid back on a monthly basis with SRECs valued at a guaranteed price. We do all of the back-office SREC work.
We offer a long term guaranteed floor price on SRECs, giving borrowers’ security and a chance to benefit from the upside of higher market prices
No other bank or broker offers this financing in combination with a floor price.
The loan period of 15 years for Non-Residential applicants and 10 years for Residential applicants is significantly longer than most traditional lenders allow for solar PV installations.
The Solar Loan is unique because…
Utility Finance Programs
PSE&G
Provides loans for residential and non-residential solar projects in PSE&G electric territory
Total 51 MW available ~ $143 MM in loans available for solar500 kw(dc) project size max3 segments with capacity of:
Residential: 9 MWSmall Non-Res: 17 MW (< 150 kw DC)Large Non-Res: 25 MW (> 150 and < 500 kw )
PSE&G Solar Loan II Program
Utility Finance Programs
PSE&G
• Applications accepted First-Come-First-Served on a quarterly basis• 8 application periods over 2 years (calendar quarters) ending
12/31/2011– First quarter is now through 3/31/2010
• Entity caps set at 20% of segment capacity annually, unless undersubscribed
• Res terms are 10 years @ 6.5%• Non-Res terms are 15 years @ 11.3092%• Administrative fee withheld at closing from loan amount• 6% for Res• 2.5% Small Non Res (up to & including 150 kw)• 1.5% Large Non Res > 150 up to = 500 kw• Application fee is $10.00 per installed kW (up to a maximum of
$2,500)
PSE&G Solar Loan II Program
Utility Finance Programs
PSE&G
SREC Floor Price Schedule
Locking in at the price shown above (e.g. if residential application is filed on March 1, 2010, customer locks in at $450 per SREC for the duration of the loan)Eliminates SREC Risk for the Customer – the loan program takes it on
Your floor price depends on when you submit your application:
SegmentDec 2009 - Jun 2010
Jul 2010 - Dec 2010
Jan 2011 - Jun 2011
Jul 2011 - Dec 2011
Residential 450 435 420 400Non-Residential
410 395 380 360up to 150 kWDCNon-Residential
>150 - 500 kWDC 380 365 350 330
Utility Finance Programs
PSE&G
How much can the customer borrow? It all Depends on System Output
Non-Residential Customers can borrow:Net present value of• All SRECs solar system would
produce over 15 years• 11.3092%• @ guaranteed Floor Price per
SREC
Equals ~40-60% of installed system total costGo to the Calculators on our website
Net present value of• All SRECs solar system would
produce over 10 years• 6.5%• @ guaranteed Floor Price per
SREC
Equals ~40-60% of installed system total costGo to the Calculators on our website
Residential Customers can borrow:
Utility Finance Programs
PSE&G
• Go to http://www.pseg.com/customer/solar/index.jsp• Click on “PSE&G Solar Loan Program” on left• Select Residential or Nonresidential on the left• Find the Calculator on the right
Calculator Demonstration / Tour of our Website Tools, forms,
application for download
Utility Finance Programs
PSE&G
Application Submittal • Applicant with Developer’s assistanceApplication Review• PSE&G reviews loan package, notifies applicant/developer of deficiencies if any• Credit and Interconnection Review ConductedLoan Approval• PSE&G issues a Commitment Letter• Borrower has 30 days to signInstallation and Inspections• Developer builds system and drives BPU and Municipal inspections• Developer Coordinates meter installation with PSE&G• Developer drives SREC certification (and rebates)Pre-Closing Due Diligence• Title report run, 1st lien status on equipment established by PSE&G• Insurance• Subordinations as requiredFinancial Closing
Application process
Utility Finance Programs
PSE&G
What is the cost to a non-residential customer?System Size: 500 kWSystem Cost: ($5.50/watt) $2,750,000Tax Credit (ITC 30%) -$825,000PSE&G could loan -$1,469,168 (use loan calculator)
$455,832 (customer out of pocket)
Electricity cost savings ($.15kWh) -$85,4101st year depreciation benefit* -$163,625*assumes federal taxable income, 35% tax rate
1st year Operating Exp. ($.3/w)* $15,000*includes O&M and insurance
End of Yr 1 Money out of Pocket $221,797Payback Period Less than 2 yearsWith Home Solar Loan, pay back approach is SMART
*Designed to pay itself off with SRECs generatedNote: The illustration is heavily driven by tax items including tax rates, availability of tax credits, depreciable tax basis and allowable tax depreciation expense for purposes of calculating taxable income. It further assumes that the equity owner has sufficient tax liability to utilize tax benefits. Each owner should consider their own specific tax situation.
Utility Finance Programs
PSE&G
What is the cost to a residential customer?
System Size: 7 kWSystem Cost: ($7.00/watt) $49,000Rebate ($0.75/watt) -$5,250System Cost (After Rebate) $43,750Tax Credit (ITC 30%) -$13,125 (30% X $43,750)System Cost (After ITC) $30,625PSE&G could loan (net of admin fee) -$25,281 (use loan calculator)
5,344 Customer out of pocket
Electricity cost savings -$ 797End of Yr 1 out of pocket $4,547Payback period ~ 5.5 years
With Home Solar Loan, pay back approach is SMART *Designed to pay itself off with SRECs generated
Utility Finance Programs
PSE&G
Utility Finance Programs
For more information:www.pseg.com/slp
•Andres Salas (general) Mark Burke (general) David Saraceno (developers)•973-430-6057 609-709-9137 973-430-7931 [email protected] [email protected] [email protected]
•Patty Siegel (credit) Patty Taylor (closings) Solar Hotline•973-430-6241 973-430-6132 973-430-8460•[email protected] [email protected] [email protected]
•Michele Gonzalez (non-res)•[email protected]
PSE&G
• The Program is designed to enable financing for new solar projects based on reasonable assurances regarding the price and potential revenues that could result from each project’s generation of SRECs
• The Program is not a loan program• The Program is only for the purchase of SRECs. ACE, JCP&L and
RECO will not purchase the energy or capacity from solar projects
• The Program is consistent with Stipulation and Orders– 10 to 15 year term purchase agreements– Anticipate three solicitations each year– Requires completion of Initial Application Process with State
Programs (either REIP or SRP)
SREC-Based Financing Overview
Utility Finance Programs
ACE, JCP&L, RECO
500 kW or less*
Residential
Commercial
In ACE’s service territory
In JCP&L’s service territory
In RECO’s service territory
Customer submits Proposal
Developer submits Proposal
Has cleared the Initial Application Process with State Programs (REIP or SRP) but has not requested interconnection before BPU approval of bids
A portion (less than 500 kW) of a project that exceeds 500 kW in aggregate*
Has received or will receive rebate from CORE in force 2001- 2008
Interconnected at transmission voltages
Does not agree to net metering arrangements with the EDC
Does not agree to install SREC meter at project’s expense
Does not agree to terms of SREC PSA
Eligible Projects Projects That Are Not Eligible
*DC rating
Utility Finance Programs
General Project Requirements
ACE, JCP&L, RECO
• The Program targets to procure more than 64 MW over three years, 19 MW for ACE, 42 MW for JCP&L, and 3.769 MW for RECO
• The planned quantities may or may not be awarded in a solicitation based on an assessment of the competitiveness of pricing
Utility Finance Programs
MW Targets
ACE, JCP&L, RECO
1. Expression of Interest (EOI)2. Pricing Proposal (Bids)3. Qualification Package
Visit our dedicated Web Site: www.NJEDCsolar.com
Utility Finance Programs
RFP participation is in three steps
ACE, JCP&L, RECO
• The New Jersey Clean Energy Program (“NJCEP”) is working in cooperation with the SREC-Based Financing Program.
• In order to participate, an applicant must obtain a NJCEP Application Number through an initial application process. The number must then be included in the EOI.
• In order to guarantee the acquisition of an NJCEP Application Number for a project in time for this solicitation, the applicant must provide a complete package to the NJCEP.
• Information and links for both programs can be found on the following web page: www.njcleanenergy.com/renewable-energy/home/home
Utility Finance Programs
NJCEP Initial Application Deadlines
ACE, JCP&L, RECO
Register to be on distribution list to receive updates about the program
Utility Finance Programs
Register to Receive Email Announcements
ACE, JCP&L, RECO
Updated RFP Rules posted January 29, 2010
Useful 4-page overview
Utility Finance Programs
RFP Documents Available on Our Web Site
ACE, JCP&L, RECO
• Forty-four bids received (7,009.628 kW)• Thirty-nine awards made (6,521.798 kW)• Five bids (487.830 kW) were rejected because pricing was
found not to be competitive• The average Net Present Value (“NPV”) of all accepted
projects was $2,864.93/SREC (corresponding to an average SREC price of $405.15 for a ten-year project)
• The lowest NPV of all accepted projects was $1,926.53/SREC (corresponding to an average SREC price of $272.44 for a ten-year project)
Utility Finance Programs
Results from the Second Solicitation Bids received on December 11, 2009
ACE, JCP&L, RECO
SREC Based Financing ProgramSREC Based Financing ProgramOne Gateway Center, Suite 720, Newark, One Gateway Center, Suite 720, Newark,
NJ 07102NJ 07102Attn: NERA / Solicitation ManagerAttn: NERA / Solicitation Manager
Phone: (973) 297Phone: (973) 297--08800880Email: Email: [email protected]@nera.com
Utility Finance Programs
Delivery Address and Contact Information
ACE, JCP&L, RECO
Marketing and use of NJCEP Brand
• Installers CAN NOT use the NJCEP logo in any marketing, advertising or communications pieces.
• Only HPwES contractors that are a part of a formal co-op program can use the logo
Marketing information
Doing business in New Jersey• Home Improvement Contractor registration for residential
projects• Must be legal entity recognized by the state to conduct
business in the state• Meet insurance requirements set by the state• Comply with all tax and licensing requirements for doing
business in the state.• Recommend reviewing all relevant Board Orders and
program Guidebook information on the NJCEP website
Doing Business in NJ
New Jersey’s Clean Energy Program75 Lincoln Highway
Suite 100 Iselin, NJ 08830
www.NJCleanEnergy.com866-NJSMART
Contact Info:
Tammy Gray Senior Operations Specialist
David Damiani Program inspector
Larry Barth REIP Program Manager [email protected]
Joananne Bachmann REIP Account Manager