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Solar power in Pennsylvania

January 01, 1970

Solar power in Pennsylvania currently provides less than 1% of the state's electricity, but there are many policies in place to regulate and incentivize its use. Pennsylvania mandates the use of solar power through a renewable portfolio standard, which requires a percentage of electricity from each providers to come from solar, and net metering, which compensates small-scale solar generation through net metering. By 2021, Pennsylvania was required to have 0.5% of its electricity from solar. Their following goal is 10% by 2030. Solar power could theoretically provide over 30% of the state's electricity, but growth in solar generation has slowed due to a reduction in solar grants and the low price of solar energy credits. Efforts have also seen blowback from citizens, most notably from Mount Joy Township. Although, Pennsylvania has ruled solar as a legal use, meaning local governments can only restrict size and placement, but can't disband the projects.

Solar panels in Myerstown.

Solar power policies edit

 
Cleaning solar panels, Palmyra

Net metering edit

Net metering is available to all residential customers up to 50 kW and others up to at least 3 MW.[1] Excess generation is credited at retail rate to customer's next bill, and paid annually at "price-to-compare" (normally referred to as "avoided cost"). Best practices call for no limits (other than to customer's service entrance rating), and perpetual roll over of kilowatt credits, instead of converting to a monetary credit. Annual reconciliation can create problems as annual generation for wind and solar inherently varies from year to year, and during the year large credit surpluses can accrue that would be later consumed, which is why perpetual roll over of kilowatt credits is recommended. Converting to a monetary credit is not recommended because electric rates change over time. In the event that the generation installed is larger than needed to meet local demand, an optional compensation is more practical than a mandatory method, even if the compensation is at retail.[2]

Alternative Energy Portfolio Standard edit

Pennsylvania has a renewable portfolio standard titled Alternative Energy Portfolio Standard (AEPS), which mandates use of solar photovoltaics (PV) for electricity. All electrical utilities in Pennsylvania must supply a percentage of their electricity from alternative sources, which fall into two tiers: Tier I, which includes biomass, wind, and geothermal; and Tier II, which includes waste coal, gasification (syngas), and utility-scale hydropower.[3] Each tier has a separate standard; by 2021, 8% of generation must come from Tier I, and 10% must come from Tier II.[4] Solar PV and solar thermal fall under Tier I, but the AEPS also contains a requirement that a percentage of Tier I electricity be generated specifically from solar PV – 0.5% by 2021.[3][4]

To comply with the standard, Pennsylvania utilities must obtain Alternative Energy Credits (AECs), which are equal to one megawatt-hour (MWh) of energy generated from Tier I or Tier II sources. Surplus AECs can be bought and sold between utilities or stored for a maximum of two years before being used.[5] Utilities that do not comply must pay an alternative compliance payment (ACP), which goes to the state's Sustainable Energy Funds.[5] The ACP for solar PV is dependent on the cost of solar PV electricity (in 2016 it was $124.14), while for all other sources the ACP is set at $45.[6]

Pennsylvania solar energy market edit

 
Map of Pennsylvania commercial solar power plants

Solar energy has failed to penetrate the Pennsylvania energy market to the extent that it has in other states due to in part to inconsistent financial incentives. In 2009, Pennsylvania created the PA Sunshine Rebate program, which allocated $100 million in state funds to offer rebates for small-scale solar installations.[7][8] This program led to a short-term increase in the rate solar installations. Since then, the program has run out of funding and is no longer offering rebates, causing the number of new installations to drop. It has been replaced by the Solar Loan Program, which provides loans for building components for solar plants and for installing new solar generation.[9] In addition, several Pennsylvania utilities offer grant, rebate, and loan programs for solar applications.[10][11]

 
Total and newly installed solar capacity in Pennsylvania by year

Solar generation in Pennsylvania has also been made less financially attractive by low prices for solar alternative energy credits (SAECs).[7] This is due to an oversupply of SAECs compared to what is required under the AEPS.[8] Pennsylvania accepts SAECs from out-of-state solar generation within the PJM Interconnection, regardless of whether the state has a renewable portfolio standard.[12] This allows Pennsylvania-based electrical providers to buy out-of-state SAECs cheaply rather than build new solar generation within the state. The influx of out-of-state credits causes the supply of SAECs to exceed the total number required for compliance, resulting in low prices for credits and a reduced incentive to construct solar power facilities in Pennsylvania.[7][8]

 
Solar panels installed at Phipps Conservatory

The average price of Pennsylvania SAECs peaked in 2010 at $310.[13] Since the beginning of 2013, prices have fluctuated between $12 and $60.[13] As of October 2017, the price has fallen to $3.50.[14]

The following table summarizes the growth of solar power capacity and generation in Pennsylvania.

Solar Capacity and Generation in Pennsylvania[5][15][16][17][18][19][20][21][22][23][24]
Year Total Solar Capacity (MW) Newly Installed Capacity (MW) Total Electricity from Solar (thousand MWh) Percentage of Electricity from Solar Percent Solar in AEPS
2007 0.9 0.1 0 0.0126% 0.0013%
2008 3.9 3.0 0 0.0152% 0.0030%
2009 7.3 4.4 4 0.0193% 0.0063%
2010 54.8 46.5 8 0.0373% 0.0120%
2011 133.1 78.2 23 0.0671% 0.0203%
2012 164.3 31.3 32 0.0828% 0.0325%
2013 180.2 15.9 63 0.0915% 0.0510%
2014 245 65 62 0.142% 0.0840%
2015 258 13 64 0.151% 0.1440%
2016 300 42 75 0.168%
2017 361 61 70 0.200%
2018 420 59 62 0.22%
2019 495 75 83 0.25%
2020 761.6 266.6 186 0.31%
2021 873.9 112.3 0.41%
2022 1,036 162.1 0.43%

Table Key:

Total Solar Capacity: The U.S. Energy Information Administration (EIA) best describes total solar capacity as the maximum output of electricity that a generator can produce under perfect conditions.[25]

Newly Installed Capacity: Also referred to as the ICAP, refers to the maximum capacity that the system is expected to run at. Also referred to as “peak installed capacity”.[26]

  • The 2020 generation percentage number is up to the third quarter of 2020, and does not comprise the entire year.

Outlook edit

 
Average incoming solar radiation for the United States; Pennsylvania receives less than much of the country

Solar power in Pennsylvania has potential for expansion and could both reduce greenhouse gas emissions and improve public health, but growth is limited by the state's low sun exposure. If all usable rooftop space in Pennsylvania had photovoltaic panels installed, those panels would be capable of providing 34.5% of the state's electricity.[27] Each kilowatt of installed solar capacity has a societal benefit of over $100 in parts of western and southeastern Pennsylvania, when combining environmental and public health benefits from emissions reductions.[28] However, solar plants in Pennsylvania frequently have low capacity factors (ratio of power produced to maximum possible power), in large part due to low levels of incoming solar radiation.[28] The state on average receives approximately 60% - 65% as much radiation as the southwest United States.

The requirements for solar generation stop increasing under the Pennsylvania AEPS in 2021, when it will remain at 0.5% going forward. Using funding from the U.S. Department of Energy, the state began a new program in 2017, Finding Pennsylvania's Solar Future, that aims to take input from stakeholders and produce new policy recommendations regarding solar power in the state.[29] A preliminary goal is to increase the percentage of electricity sales coming from in-state solar to 10%, with a final goal and timeline for implementation to be determined.[30]

In February 2022, Sheetz announced a long-term renewable supply agreement that would provide solar power for about 70% of its Pennsylvania facilities by 2024.[31]

See also edit

References edit

  1. ^ Database of State Incentives for Renewables and Efficiency (23 Jan 2017). "Net Metering". DSIRE. Retrieved 10 Oct 2017.
  2. ^ Interstate Renewable Energy Council (2009). "IREC Model Net Metering Rules 2009". IREC. Retrieved 10 Oct 2017.
  3. ^ a b Pennsylvania General Assembly, 2004. Alternative Energy Portfolio Standards Act, United States: State of Pennsylvania. Available at: http://www.legis.state.pa.us/cfdocs/legis/li/uconsCheck.cfm?yr=2004&sessInd=0&act=213 .
  4. ^ a b Pennsylvania General Assembly, 2007. Alternative Energy Portfolio Standards Act - Alternative Energy Portfolio Standards, Portfolio Requirements In Other States and Interconnection Standards for Customer-Generator Facilities, United States: State of Pennsylvania. Available at: http://www.legis.state.pa.us/cfdocs/Legis/LI/uconsCheck.cfm?txtType=HTM&yr=2007&sessInd=0&smthLwInd=0&act=35.
  5. ^ a b c Database of State Incentives for Renewables and Efficiency (24 Jan 2017). "Alternative Energy Portfolio Standard". DSIRE. Retrieved 10 Oct 2017.
  6. ^ Pennsylvania Alternative Energy Portfolio Standard Program (2016). "Energy Year 2016 ACP and Average Solar and Tier II Prices Released". Pennsylvania Public Utility Commission. Retrieved 10 Oct 2017.
  7. ^ a b c Warwood, Amanda (15 June 2016). . City of Philadelphia. Archived from the original on 2016-10-08. Retrieved 10 Oct 2017.
  8. ^ a b c SRECTrade (16 Feb 2012). "Why are Pennsylvania SREC prices so low?". SRECTrade. Retrieved 10 Oct 2017.
  9. ^ Pennsylvania Department of Community & Economic Development. "Solar Energy Program (SEP)". PA DCED. Retrieved 10 Oct 2017.
  10. ^ Database of State Incentives for Renewables and Efficiency (2017). "Programs: Pennsylvania". DSIRE. Retrieved 10 Oct 2017.
  11. ^ U.S. Department of Energy (Oct 2015). . Office of Energy Efficiency & Renewable Energy. Archived from the original on 2014-10-09. Retrieved 10 Oct 2017.
  12. ^ Database of State Incentives for Renewables and Efficiency (5 May 2015). "Solar Alternative Energy Credits". DSIRE. Retrieved 10 Oct 2015.
  13. ^ a b SRECTrade. "Historic Auction Prices". SRECTrade. Retrieved 10 Oct 2017.
  14. ^ SRECTrade. "Markets - Pennsylvania". SRECTrade. Retrieved 10 Oct 2017.
  15. ^ Sherwood, Larry (August 2012). "U.S. Solar Market Trends 2011" 2012-09-06 at the Wayback Machine(PDF). Interstate Renewable Energy Council (IREC). p. 17. Retrieved 2012-08-16.
  16. ^ Sherwood, Larry (July 2014). "U.S. Solar Market Trends 2013"(PDF). Interstate Renewable Energy Council (IREC). Retrieved 2014-09-26.
  17. ^ Sherwood, Larry (June 2011). "U.S. Solar Market Trends 2010"(PDF). Interstate Renewable Energy Council (IREC). Retrieved 2011-06-29.
  18. ^ Sherwood, Larry (July 2010). "U.S. Solar Market Trends 2009" 2010-09-25 at the Wayback Machine(PDF). Interstate Renewable Energy Council (IREC). Retrieved 2010-07-28.
  19. ^ Sherwood, Larry (July 2009). "U.S. Solar Market Trends 2008" 2009-11-23 at the Wayback Machine(PDF). Interstate Renewable Energy Council (IREC). Retrieved 2010-07-24.
  20. ^ Sherwood, Larry (August 2008). "U.S. Solar Market Trends 2007"[permanent dead link](PDF). Interstate Renewable Energy Council (IREC). Retrieved 2010-07-24.
  21. ^ U.S. Energy Information Administration. . U.S. Department of Energy. Archived from the original on 2017-02-16. Retrieved 10 Oct 2017.
  22. ^ "Pennsylvania". Solar Energy Industries Association. Retrieved 5 May 2020.
  23. ^ Solar Industry Research Data
  24. ^ "Pennsylvania - Net Generation for All Sectors". U.S. Energy Information Administration. Retrieved 2021-04-17.
  25. ^ "What's the Difference between Installed Capacity and Electricity Generation?". Energy.gov. Retrieved 2021-10-03.
  26. ^ "» Installed Capacity". Retrieved 2021-10-03.
  27. ^ Gagnon, Pieter; Margolis, Robert; Melius, Jennifer; Phillips, Caleb; Elmore, Ryan (Jan 2016). "Rooftop Solar Photovoltaic Technical Potential in the United States: A Detailed Assessment" (PDF). National Renewable Energy Laboratory. Retrieved 10 Oct 2017.
  28. ^ a b Siler-Evans, Kyle; Azevedo, Inês Lima; Morgan, M. Granger; Apt, Jay (2013-07-16). "Regional variations in the health, environmental, and climate benefits of wind and solar generation". Proceedings of the National Academy of Sciences. 110 (29): 11768–11773. Bibcode:2013PNAS..11011768S. doi:10.1073/pnas.1221978110. ISSN 0027-8424. PMC 3718187. PMID 23798431.
  29. ^ Shirley, Jessica; Althoff, Jr., David; Campbell, Kerry; Bristow, Geoff; Dinda, Walt (2017). "Finding Pennsylvania's Solar Future" (PDF). Pennsylvania Department of Environmental Protection. Retrieved 10 Oct 2017.
  30. ^ Pennsylvania Department of Environmental Protection (2018). "Finding Pennsylvania's Solar Future". PA DEP. Retrieved 10 Oct 2017.
  31. ^ Misbrener, Kelsey (2022-02-16). "Sheetz invests in enough solar to power nearly 70% of Pennsylvania facilities". Solar Power World. Retrieved 2022-04-03.

External links edit

 
Wikimedia Commons has media related to Solar power in Pennsylvania.
  • Incentives and Policies

January 01, 1970
solar, power, pennsylvania, currently, provides, less, than, state, electricity, there, many, policies, place, regulate, incentivize, pennsylvania, mandates, solar, power, through, renewable, portfolio, standard, which, requires, percentage, electricity, from,. Solar power in Pennsylvania currently provides less than 1 of the state s electricity but there are many policies in place to regulate and incentivize its use Pennsylvania mandates the use of solar power through a renewable portfolio standard which requires a percentage of electricity from each providers to come from solar and net metering which compensates small scale solar generation through net metering By 2021 Pennsylvania was required to have 0 5 of its electricity from solar Their following goal is 10 by 2030 Solar power could theoretically provide over 30 of the state s electricity but growth in solar generation has slowed due to a reduction in solar grants and the low price of solar energy credits Efforts have also seen blowback from citizens most notably from Mount Joy Township Although Pennsylvania has ruled solar as a legal use meaning local governments can only restrict size and placement but can t disband the projects Solar panels in Myerstown Contents 1 Solar power policies 1 1 Net metering 1 2 Alternative Energy Portfolio Standard 2 Pennsylvania solar energy market 3 Outlook 4 See also 5 References 6 External linksSolar power policies edit nbsp Cleaning solar panels Palmyra Net metering edit Net metering is available to all residential customers up to 50 kW and others up to at least 3 MW 1 Excess generation is credited at retail rate to customer s next bill and paid annually at price to compare normally referred to as avoided cost Best practices call for no limits other than to customer s service entrance rating and perpetual roll over of kilowatt credits instead of converting to a monetary credit Annual reconciliation can create problems as annual generation for wind and solar inherently varies from year to year and during the year large credit surpluses can accrue that would be later consumed which is why perpetual roll over of kilowatt credits is recommended Converting to a monetary credit is not recommended because electric rates change over time In the event that the generation installed is larger than needed to meet local demand an optional compensation is more practical than a mandatory method even if the compensation is at retail 2 Alternative Energy Portfolio Standard edit Pennsylvania has a renewable portfolio standard titled Alternative Energy Portfolio Standard AEPS which mandates use of solar photovoltaics PV for electricity All electrical utilities in Pennsylvania must supply a percentage of their electricity from alternative sources which fall into two tiers Tier I which includes biomass wind and geothermal and Tier II which includes waste coal gasification syngas and utility scale hydropower 3 Each tier has a separate standard by 2021 8 of generation must come from Tier I and 10 must come from Tier II 4 Solar PV and solar thermal fall under Tier I but the AEPS also contains a requirement that a percentage of Tier I electricity be generated specifically from solar PV 0 5 by 2021 3 4 To comply with the standard Pennsylvania utilities must obtain Alternative Energy Credits AECs which are equal to one megawatt hour MWh of energy generated from Tier I or Tier II sources Surplus AECs can be bought and sold between utilities or stored for a maximum of two years before being used 5 Utilities that do not comply must pay an alternative compliance payment ACP which goes to the state s Sustainable Energy Funds 5 The ACP for solar PV is dependent on the cost of solar PV electricity in 2016 it was 124 14 while for all other sources the ACP is set at 45 6 Pennsylvania solar energy market edit nbsp Map of Pennsylvania commercial solar power plants Solar energy has failed to penetrate the Pennsylvania energy market to the extent that it has in other states due to in part to inconsistent financial incentives In 2009 Pennsylvania created the PA Sunshine Rebate program which allocated 100 million in state funds to offer rebates for small scale solar installations 7 8 This program led to a short term increase in the rate solar installations Since then the program has run out of funding and is no longer offering rebates causing the number of new installations to drop It has been replaced by the Solar Loan Program which provides loans for building components for solar plants and for installing new solar generation 9 In addition several Pennsylvania utilities offer grant rebate and loan programs for solar applications 10 11 nbsp Total and newly installed solar capacity in Pennsylvania by year Solar generation in Pennsylvania has also been made less financially attractive by low prices for solar alternative energy credits SAECs 7 This is due to an oversupply of SAECs compared to what is required under the AEPS 8 Pennsylvania accepts SAECs from out of state solar generation within the PJM Interconnection regardless of whether the state has a renewable portfolio standard 12 This allows Pennsylvania based electrical providers to buy out of state SAECs cheaply rather than build new solar generation within the state The influx of out of state credits causes the supply of SAECs to exceed the total number required for compliance resulting in low prices for credits and a reduced incentive to construct solar power facilities in Pennsylvania 7 8 nbsp Solar panels installed at Phipps Conservatory The average price of Pennsylvania SAECs peaked in 2010 at 310 13 Since the beginning of 2013 prices have fluctuated between 12 and 60 13 As of October 2017 the price has fallen to 3 50 14 The following table summarizes the growth of solar power capacity and generation in Pennsylvania Solar Capacity and Generation in Pennsylvania 5 15 16 17 18 19 20 21 22 23 24 Year Total Solar Capacity MW Newly Installed Capacity MW Total Electricity from Solar thousand MWh Percentage of Electricity from Solar Percent Solar in AEPS 2007 0 9 0 1 0 0 0126 0 0013 2008 3 9 3 0 0 0 0152 0 0030 2009 7 3 4 4 4 0 0193 0 0063 2010 54 8 46 5 8 0 0373 0 0120 2011 133 1 78 2 23 0 0671 0 0203 2012 164 3 31 3 32 0 0828 0 0325 2013 180 2 15 9 63 0 0915 0 0510 2014 245 65 62 0 142 0 0840 2015 258 13 64 0 151 0 1440 2016 300 42 75 0 168 2017 361 61 70 0 200 2018 420 59 62 0 22 2019 495 75 83 0 25 2020 761 6 266 6 186 0 31 2021 873 9 112 3 0 41 2022 1 036 162 1 0 43 Table Key Total Solar Capacity The U S Energy Information Administration EIA best describes total solar capacity as the maximum output of electricity that a generator can produce under perfect conditions 25 Newly Installed Capacity Also referred to as the ICAP refers to the maximum capacity that the system is expected to run at Also referred to as peak installed capacity 26 The 2020 generation percentage number is up to the third quarter of 2020 and does not comprise the entire year Outlook edit nbsp Average incoming solar radiation for the United States Pennsylvania receives less than much of the country Solar power in Pennsylvania has potential for expansion and could both reduce greenhouse gas emissions and improve public health but growth is limited by the state s low sun exposure If all usable rooftop space in Pennsylvania had photovoltaic panels installed those panels would be capable of providing 34 5 of the state s electricity 27 Each kilowatt of installed solar capacity has a societal benefit of over 100 in parts of western and southeastern Pennsylvania when combining environmental and public health benefits from emissions reductions 28 However solar plants in Pennsylvania frequently have low capacity factors ratio of power produced to maximum possible power in large part due to low levels of incoming solar radiation 28 The state on average receives approximately 60 65 as much radiation as the southwest United States The requirements for solar generation stop increasing under the Pennsylvania AEPS in 2021 when it will remain at 0 5 going forward Using funding from the U S Department of Energy the state began a new program in 2017 Finding Pennsylvania s Solar Future that aims to take input from stakeholders and produce new policy recommendations regarding solar power in the state 29 A preliminary goal is to increase the percentage of electricity sales coming from in state solar to 10 with a final goal and timeline for implementation to be determined 30 In February 2022 Sheetz announced a long term renewable supply agreement that would provide solar power for about 70 of its Pennsylvania facilities by 2024 31 See also edit nbsp Renewable energy portal nbsp Energy portal nbsp United States portal nbsp Pennsylvania portal List of power stations in Pennsylvania Wind power in Pennsylvania Solar power in the United States Renewable energy in the United StatesReferences edit Database of State Incentives for Renewables and Efficiency 23 Jan 2017 Net Metering DSIRE Retrieved 10 Oct 2017 Interstate Renewable Energy Council 2009 IREC Model Net Metering Rules 2009 IREC Retrieved 10 Oct 2017 a b Pennsylvania General Assembly 2004 Alternative Energy Portfolio Standards Act United States State of Pennsylvania Available at http www legis state pa us cfdocs legis li uconsCheck cfm yr 2004 amp sessInd 0 amp act 213 a b Pennsylvania General Assembly 2007 Alternative Energy Portfolio Standards Act Alternative Energy Portfolio Standards Portfolio Requirements In Other States and Interconnection Standards for Customer Generator Facilities United States State of Pennsylvania Available at http www legis state pa us cfdocs Legis LI uconsCheck cfm txtType HTM amp yr 2007 amp sessInd 0 amp smthLwInd 0 amp act 35 a b c Database of State Incentives for Renewables and Efficiency 24 Jan 2017 Alternative Energy Portfolio Standard DSIRE Retrieved 10 Oct 2017 Pennsylvania Alternative Energy Portfolio Standard Program 2016 Energy Year 2016 ACP and Average Solar and Tier II Prices Released Pennsylvania Public Utility Commission Retrieved 10 Oct 2017 a b c Warwood Amanda 15 June 2016 Solar in Philadelphia Part 1 Where We Are City of Philadelphia Archived from the original on 2016 10 08 Retrieved 10 Oct 2017 a b c SRECTrade 16 Feb 2012 Why are Pennsylvania SREC prices so low SRECTrade Retrieved 10 Oct 2017 Pennsylvania Department of Community amp Economic Development Solar Energy Program SEP PA DCED Retrieved 10 Oct 2017 Database of State Incentives for Renewables and Efficiency 2017 Programs Pennsylvania DSIRE Retrieved 10 Oct 2017 U S Department of Energy Oct 2015 Energy Incentive Programs Pennsylvania Office of Energy Efficiency amp Renewable Energy Archived from the original on 2014 10 09 Retrieved 10 Oct 2017 Database of State Incentives for Renewables and Efficiency 5 May 2015 Solar Alternative Energy Credits DSIRE Retrieved 10 Oct 2015 a b SRECTrade Historic Auction Prices SRECTrade Retrieved 10 Oct 2017 SRECTrade Markets Pennsylvania SRECTrade Retrieved 10 Oct 2017 Sherwood Larry August 2012 U S Solar Market Trends 2011 Archived 2012 09 06 at the Wayback Machine PDF Interstate Renewable Energy Council IREC p 17 Retrieved 2012 08 16 Sherwood Larry July 2014 U S Solar Market Trends 2013 PDF Interstate Renewable Energy Council IREC Retrieved 2014 09 26 Sherwood Larry June 2011 U S Solar Market Trends 2010 PDF Interstate Renewable Energy Council IREC Retrieved 2011 06 29 Sherwood Larry July 2010 U S Solar Market Trends 2009 Archived 2010 09 25 at the Wayback Machine PDF Interstate Renewable Energy Council IREC Retrieved 2010 07 28 Sherwood Larry July 2009 U S Solar Market Trends 2008 Archived 2009 11 23 at the Wayback Machine PDF Interstate Renewable Energy Council IREC Retrieved 2010 07 24 Sherwood Larry August 2008 U S Solar Market Trends 2007 permanent dead link PDF Interstate Renewable Energy Council IREC Retrieved 2010 07 24 U S Energy Information Administration Table CT2 Primary Energy Consumption Estimates 1960 2015 Pennsylvania Trillion BTU U S Department of Energy Archived from the original on 2017 02 16 Retrieved 10 Oct 2017 Pennsylvania Solar Energy Industries Association Retrieved 5 May 2020 Solar Industry Research Data Pennsylvania Net Generation for All Sectors U S Energy Information Administration Retrieved 2021 04 17 What s the Difference between Installed Capacity and Electricity Generation Energy gov Retrieved 2021 10 03 Installed Capacity Retrieved 2021 10 03 Gagnon Pieter Margolis Robert Melius Jennifer Phillips Caleb Elmore Ryan Jan 2016 Rooftop Solar Photovoltaic Technical Potential in the United States A Detailed Assessment PDF National Renewable Energy Laboratory Retrieved 10 Oct 2017 a b Siler Evans Kyle Azevedo Ines Lima Morgan M Granger Apt Jay 2013 07 16 Regional variations in the health environmental and climate benefits of wind and solar generation Proceedings of the National Academy of Sciences 110 29 11768 11773 Bibcode 2013PNAS 11011768S doi 10 1073 pnas 1221978110 ISSN 0027 8424 PMC 3718187 PMID 23798431 Shirley Jessica Althoff Jr David Campbell Kerry Bristow Geoff Dinda Walt 2017 Finding Pennsylvania s Solar Future PDF Pennsylvania Department of Environmental Protection Retrieved 10 Oct 2017 Pennsylvania Department of Environmental Protection 2018 Finding Pennsylvania s Solar Future PA DEP Retrieved 10 Oct 2017 Misbrener Kelsey 2022 02 16 Sheetz invests in enough solar to power nearly 70 of Pennsylvania facilities Solar Power World Retrieved 2022 04 03 External links edit nbsp Wikimedia Commons has media related to Solar power in Pennsylvania Incentives and Policies Retrieved from https en wikipedia org w index php title Solar power in Pennsylvania amp oldid 1191581373, wikipedia, wiki, book, books, library,

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