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Matt Heling Program Manager Solar & Customer Generation Pacific Gas & Electric Co. Webinar: PV Financial Analysis. Garen Grigoryan Business Analyst Solar & Customer Generation Pacific Gas & Electric Co. Webinar Goal.
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Matt Heling Program Manager Solar & Customer Generation Pacific Gas & Electric Co. Webinar:PV Financial Analysis • Garen Grigoryan • Business Analyst • Solar & Customer Generation • Pacific Gas & Electric Co.
Webinar Goal • Review concepts and resources needed to understand and/or perform an analysis of PV system cost-effectiveness.
Agenda • PV system costs • PV systems benefits (financial) • Methods of financial analysis
Energy Efficiency • Energy efficiency is typically the most cost-effective way to reduce your energy bill • Energy efficiency also reduces the size of the solar system you need • Can save $1,000’s of dollars on the cost of the system • An energy efficiency audit is required to be eligible for some customer-side incentive programs
Large Solar PG&E Home: PV System Cost and Payback Large Solar PG&E Home Total Upfront Savings: $8,889 11.9 Panel Reduction *($9/watt)-CSI Incentive -30% Federal Tax
Site Screening • What physical site characteristics makes a site a good candidate for PV? • Orientation – S or SW is best • Solar “window” – Access to mid-day sunlight • Roof tilt – ~30º is ideal, but even flat is okay • Weather – Typically good in CA
PV System Performance Rules of thumb: • Each 1 kW of PV system capacity typically*… • Requires ~100 ft2 of roof space • Produces ~1,300 – 1,700 kWh/yr. • Depends on many factors, including: • Location • Shading • System orientation • etc. PV production calculators can estimate production for specific PV system types, locations, technologies, configurations, etc. * Values presented are approximations only and may vary depending on a variety of factors.
Capital Investment • Modules (Panels) • Inverters • Balance of system cost Typical installed costs are $8 to $10 per Watt
Operations and Maintenance Costs • Washing • Cost related to hiring a service to perform this maintenance twice a year • Inverter replacement • Typically every ten years • PMRS (Performance Monitoring and Reporting Service) • Additional monthly cost - offset by owner’s awareness of system performance
Types of Incentives • CSI – California Solar Initiative • NSHP – New Solar Homes Partnership • MASH – Multifamily Affordable Solar Homes • SASH – Single Family Affordable Solar Homes • Local Incentives and Financing Opportunities • San Francisco • Berkeley (Berkeley First) • Sonoma (SCEIP) • Federal ITC / Depreciation
CSI – California Solar Initiative • Applies to Retrofit Residential and Non-Residential, plus New Construction Non-Residential • Incentives designed to decline over time • Currently both Residential & Non-Residential are in step 6 • Two types of Incentive Payments • EPBB (Expected Performance Based Buy-Down) – one lump sum paid upfront • PBI (Performance Based Incentive) – once a month payments made over 5 years
NHSP – New Solar Homes Partnership • Only For New Residential Home Construction • Builders • Developers • Custom home owners • Aims to install 400MW • Incentive budget is $400MM • One time, upfront, expected performance based incentive (EPBI) • PV system size 1kW AC or larger (>5kW requires justification)
MASH and SASH • Designed to encourage solar adoption for low income housing residents • MASH • Administered by PG&E • $108MM available for incentives • Track 1a: $3.30/Watt for systems that offset common load • Track 1b: $4.00/Watt for systems that offset tenant load • SASH • Administered by Grid Alternatives • $108MM available for incentives • Very low income customers may receive a 1kW fully subsidized (up to $10,000) system
City Government Incentive • San Francisco • 10 year program • In addition to other incentives • $1,000 to $3,500 for Residential • Up to $10,000 for Commercial • Low income residents may qualify for additional grants
Federal ITC • Solar Investment Tax Credit* • Went into effect January 1st 2009 • Available for next 8 years (through 2016) • 30% of net solar system cost • No monetary cap • Applies to residential & commercial *All tax related statement are designed to inform and not to be construed as tax advise. Please consult a tax attorney before making any purchasing decisions.
Bonus Depreciation • Applies to commercial system owners Only • Benefits extended for systems installed in 2009 • 50% of cost of capital investment • Up to $250,000 with phase-out threshold of $800,000 • Benefits will continue for systems installed 2010 with reduced depreciation allowances • Allowed write-off up to $125,000 of capital expenditure • Subject to phase-out once capital expenditure exceeds $500,000 *All tax related statement are designed to inform and not to be construed as tax advise. Please consult a tax attorney before making any purchasing decisions.
Sample Costs • Example* for average SF household of four • - Monthly electrical bill $75 to $150 • - Installing 3.0kW AC System *These Incentive and ITC values are for demonstration purposes. Please consult a qualified tax attorney for applicability of various Incentives and grants.
Electric Rates • Two basic types of rate schedules: • *Both incorporate the concept of tiers: • The more electricity is consumed, the more it costs. • Example: 0 - 100 kWh $0.10/kWh 100 - 200 kWh $0.12/kWh etc. • Tiers apply to both “flat” rates and TOU rates
Rate Tiers – Impact of PV Output from PV systems tends to offset the most costly electricity first.
Net Energy Metering (NEM) • NEM allows customers to receive credit for electricity produced in excess of what is consumed on-site. • Utility grid acts as “battery” • Credit is at the relevant retail rate • Annual true-up • AB 920: Credits for excess generation (kWh) (details TBD) • Can zero out energy portion of bill, but other (minor) service charges still apply • Typical customer sizes PV system to ~80% of annual energy (kWh) consumption NEM is especially valuable for customers on TOU rates because PV system output tends to occur during the most expensive (peak) periods.
Purchasing Options • Cash / Financing • Power Purchase Agreement • Lease To Own
City and County Financing • Berkeley • Creative financing – Berkeley First • Sonoma County • SCEIP – Sonoma County Energy Independence Program • Financing is for existing buildings only • Repayments made through property tax bills over time
PPA Structure • Third Party owns system and is responsible for financing, designing, installing, monitoring and maintaining for the customer • No upfront fee required • Customer purchases electricity (kWh) the system generates at contracted rates • Customer may purchase system after contract expires • Contracts are typically 20 to 25 years • RECs (Renewable Energy Credits) are claimed by third party
Lease To Own • Third Party owns system and is responsible for financing, designing, installing, monitoring and maintaining for the customer • Customer typically pays a small upfront fee • Customer enters into a lease agreement • Significant reduction in electricity bill • Contracts are typically ~10 years • Leases may have annual built-in increases – typically not exceeding increases of electricity rates
Renewable Energy Credits (RECs) • RECs are associated with the “green” component of electricity from renewable sources • RECs are presently traded in voluntary markets • ~$0.01–0.05/kWh • Generally, for PV systems on the customer side of the meter, RECs are owned by system owner • For PPAs, the owning 3rd party retains RECs • May become more valuable in the future – particularly if utilities are allowed to use RECs to meet Renewable Portfolio Standard (RPS) goals
The Key Questions • How much does/will my PV system cost? vs. • What is the value of the avoided electricity costs and other financial benefits?
Key Inputs and Variables • Incentives • May be received up-front or over time • Tax credits • ITC • Other local tax benefits • Financing method • Cash vs. loan vs. PPA vs. … • Other assumptions/concepts • Discount rate (opportunity cost) • Compound interest • Capital (installed) costs • PV modules, inverter, installation, monitoring equipment, etc. • Inverter replacement • O&M costs • Panel-washing, monitoring service, etc. • PV system performance • Annual energy production • Performance degradation • System life • Value of electricity displaced • Projected electricity production • Electric rate type (TOU vs. not) • Projected future electricity rate increases
Methods of Analysis • Simple payback • Years until costs are recovered • Total life cycle payback • Considers benefits received after simple payback is attained • Cash flow model • Shows expenses and revenues each year • See Appendix for example/illustration • Internal rate of return • Average annual profit (loss) over life of system
Thank you! • Your thoughts? • Suggestions for future content? • Opinions on content and delivery? • Topics to emphasize or de-emphasize? • How can we provide a better service? Feedback is welcomed! mgh9@pge.com
Net Energy Metering (NEM) Sell Power to the Utility by Day • Buy Power at Night and Winter Exchange at retail Annual billing cycle
Average monthly usage PV system production kWh/mo Roll over 750 500 250 May October April “SUMMER” “WINTER” NEM
Example Up-front, cash purchase of PV system Profit increase with time (Simple) Payback at ~Year 15 Value of displaced electricity grows as assumed electricity cost increases outpace assumed performance degradation Inverter replacements Capital costs – (incentives + tax credit) Note: This chart and the values shown are for illustrative purposes only.