Solar Water Heating

Solar Water Heating Regional Member Services Conference Savannah, Georgia March 2010

Open Loop Systems An open loop system is open to the potable water, that is the potable water circulates through the solar panels to be warmed. Active Passive Closed Loop Systems A closed loop system is closed to the potable water, that is the potable water does NOT circulate through the solar panels to be warmed. A separate loop transfers the heat from the collector to the storage tank. Active A Solar Tutorial Solar Water Heating Systems fall into 2 groups

Collector Types • Flat Plate • “Thin plate” • “Thick plate” • Integrated Collector Systems • Vacuum or Evacuated Tube

Thin Plate Collectors • Use with Open or Closed Loop Systems • Slimmer roof profile • Less weight • Can protect from freezing

Thick Plate Collectors • Used with Open Loop Systems • No moving parts • Low cost • No freeze protection • Heavy

Vacuum or Evacuated Tubes • Used with Closed Loop Systems • High temperature (exceeds DHW temps needed) • Ideal for +180 degree F Temps – Industrial Applications • High efficiency • High cost • Highly fragile

How Solar Water Heating Works Closed Loop: Freeze Protected System Solar Energy: The Sun Begins To Shine. The light rays hit the panels on the roof. When the Sun isn’t Shining (Cloudy Days or at Night) Solar Water Heating Panels: Panels begin to heat up which activates the Solar Loop Pump. Panels gain heat as the Sun intensifies. Solar Water Heating Panels: The panels cool off and deactivate the Solar Loop Pump Solar Loop: Heat Transfer Fluid is 50%Glycol / 50% Water and circulates continuously through the Solar Loop gaining heat. The heat transfer fluid continuously flows through the system whenever the sun is shining. The copper pipes continue to heat up. Solar Loop: The fluid stops circulating. Solar Loop Pump: The pump moves the heat transfer fluid through the Solar Loop Solar Loop Pump: The pump shuts off The heat transfers from the solar heat transfer fluid to the water in the tank by heating the copper wrapped around the tank. Solar Water Heater with Wraparound Heat Exchanger: Water sits in the center of the tank. The heat Exchanger is wrapped around it. Solar Water Heater: The back up heater on the tank comes on. (electric shown) You ALWAYS have Hot Water! If the Sun is Shining it’s a “FREE Hot Water Day!” This cycle continues as long as the sun is shining. But what happens when the Sun isn’t shining?

Solar & the USA

So why doesn’t everyone have one? • Upfront costs to homeowners • Economy is down, when SWH is needed the most! • Financial mechanisms not in place • No Tax liability to offset tax credit incentives • Layoffs, work hour reductions etc. • May not be ideal candidate • No South facing roof plane, trees - shading

Incentive Programs • Help Homeowners afford the installation of energy efficient and renewable products, which in the end, help us all. • Insulation, heat pumps, CFL’s, appliances, geo-thermal systems, photovoltaic panels, solar water heating systems, passive solar, solar space heating systems…

Federal Tax Incentives • 30% Tax Credit on Installed Solar Water Heating Systems • Systems must be SRCC 100 rated • Can carry credit over to 2016 tax year • Covers installation and components

State Tax Incentives

Utility Rebate Programs

How the Incentives Work… LA EXAMPLE: $5,000 solar system (components and installation) The State of Louisiana gives a 50% Credit ($5,000 * .50 = $2500) Income is increased by $2500 The Federal Gov’t gives a 30% Credit ($5,000 * .30 = $1500) The $2500 is taxed as income (using 30% here) reducing the savings by $750 leaving a $3250 net savings on the Solar Water Heating System. Solar Water Heating System Final Cost: $1750 GA EXAMPLE: $5,000 solar system (components and installation) The State of Georgia gives a 35% Credit ($5,000 * .35 = $1750) Income is increased by $1750 The Federal Gov’t gives a 30% Credit ($5,000 * .30 = $1500) The $1750 is taxed as income (using 30% here) reducing the savings by $525 leaving a $2725 net savings on the Solar Water Heating System. Solar Water Heating System Final Cost: $2275 SC EXAMPLE: $5,000 solar system (components and installation) The State of So. Carolina gives a 25% Credit ($5,000 * .25 = $1250) Income is increased by $1250 The Federal Gov’t gives a 30% Credit ($5,000 * .30 = $1500) The $1250 is taxed as income (using 30% here) reducing the savings by $375 leaving a $2375 net savings on the Solar Water Heating System. Solar Water Heating System Final Cost: $2625

Homeowner - ROI System Type Closed Loop Water Source City (Surface) Water Roof Surface Asphalt Shingles Solar design based upon a location with characteristics of Athens, Georgia Case 2 ADULTS, 2 PRE TEENS

Importance of Utility SWH Programs • Reduces homeowner’s upfront costs. • Reduces customer’s utility bills • Improves customer perception of utility

Utility Benefits of SWH Program • Reduces Customer Bills • Improved Customer Service • Manage Peak Loads (Demand-Side) • Diversifying Utility Resource Mix • Meeting or Anticipating Regulatory Requirements • Supporting Economic Development • Generating Valuable REC’s • Reducing Purchased Power Costs • Deferring or Optimizing Distribution Construction Used with permission: “Assessing the Strategic Value of Solar Water Heating to Electric Utilities – J. Cliburn 2008

Types of Utility SWH Programs • Rebate Program • Utility Ownership • Vender Partnership

Utility Rebate Program Utility program rests on rebates paid to solar customers. • Most common utility program model. • Relatively simple to implement • Typically incorporates utility market-building activities, such as outreach, market segmentation , technical guidelines, etc… Used with permission: “Assessing the Strategic Value of Solar Water Heating to Electric Utilities – J. Cliburn 2008

Utility Ownership The utility provides turnkey SWH energy services. • The best-known example is Lakeland Electric • Model is also being used by co-ops providing non-solar equipment, such as the Colorado-based Delta-Montrose REC geothermal program. • The utility can shape this model strategically to target high-value customers and load management. • The model generates revenues and savings to the utility. • It offers customers SWH service with no upfront cost and strong reliability benefits. Used with permission: “Assessing the Strategic Value of Solar Water Heating to Electric Utilities – J. Cliburn 2008

Vendor Partnerships In this business model the utility works with a vendor, who provides turnkey SWH services. • Similar to the ESCO model that is very popular for all kinds of energy services. • It is also being tested by Lakeland. • It maximizes current tax incentives - Vendor can benefit from the 30-percent solar investment tax credit and accelerated depreciation, so long as it owns the system (a valid lease for roof space may be required). The utility benefits by outsourcing technology risks and by holding leverage with the vendor to meet utility needs, such as integrating load management. The utility may acquire RECs through negotiation with the vendor. Used with permission: “Assessing the Strategic Value of Solar Water Heating to Electric Utilities – J. Cliburn 2008

SWH Program Framework • Utility Situation Analysis • Assessment of SWH Local Technical Potential • Assessment of SWH Local Market Potential • Review of Technical Requirements for Systems and Installations • Review of Incentives and Financing Options • Testing, Using Modeling and/or a Pilot Program - Pilot or Model Data Assessment - Customer Economic Screening (C-EST) - Utility Economic Screening (U-EST) • Business Model Assessment and Selection - Rebate - Utility Ownership - Vendor-Partner • Utility Program Design, including - Market Segmentation - Integrated Marketing Campaigns - Technical Guidelines - Administration and/or Vendor • Management - Monitoring and Evaluation Used with permission: “Assessing the Strategic Value of Solar Water Heating to Electric Utilities – J. Cliburn 2008

Questions? Thank you for attending! Sunny Regards – Power Partners Solar

Solar Water Heating