Posts Tagged ‘renewable portfolio standard’

Delaware PSC Approves SREC Procurement Pilot Program

Posted November 15th, 2011 by SRECTrade.

The Delaware Public Service Commission approved the SREC Procurement Pilot Program on November 8th, 2011. This program will allow qualified solar energy system owners to sell their SRECs at a fixed price for the next 20 years.

The program will only be open to certain DE solar owners, for example, eligible facility owners must have received approval of their “Accepted Completed Solar System Interconnection Application” on or after December 1st 2010. Another requirement stipulates that the facility must not have received supplemental funding from a public source other than grants associated with the Delaware Green Energy Program “GEP”.

The number of SRECs to be procured is tiered according to the system size from which they are obtained. They will also be priced accordingly. Based on the requirements for June 2011 through May 2012, the numbers and price are

Tier Size (kW) Number of SRECs Percentage of Total SRECs Price, 1st 10 years Price, next 10 years
1 <50 2972 13.4% $260 base, $235 alt+ $50
2a 50 – 250 2,000 9.1% $240 base, $175 alt+ $50
2b 250 – 500 2,000 9.1% Lowest Bid Price* $50
3 500 – 2,000 4,500 20.4% Lowest Bid Price* $50
4 >2,000 10,600 48% Lowest Bid Price* $50
+Alternative pricing for projects that received a GEP grant before December 10 2010.
* Prices for tiers 2b, 3 and 4 will be decided by competitive bidding amongst the applicants.

In the event of oversubscription for facilities in Tier 1 and 2A, systems will be eliminated via lottery, starting with systems enrolled in the equipment or workforce bonus program.

Payments will be made quarterly for Tier 1 and monthly for Tiers 2 and 3. The energy production must be measured by at least a standard, utility grade meter and online monitoring for Tier 1 systems, and a revenue grade meter with online monitoring for Tiers 2 and 3.

Facilities are obliged to deliver the number of SRECs as estimated for their system size when they apply. The Sustainable Energy Utility is obliged to purchase up to 110% of the estimated SRECs, but may choose not to purchase any additional surplus SRECs.

This program will likely commence this winter or spring, and SRECTrade will be supporting this program for all of our installers and their customers. Look out for a future email regarding the SREC Pilot Program.

Solar Capacity in the SREC States – October 2011

Posted October 27th, 2011 by SRECTrade.

SRECTrade SREC Markets Report: October 2011

The following post outlines the megawatts of solar capacity certified and/or registered to create SRECs in the Solar REC markets SRECTrade currently serves.

A PDF copy of this table can be found here.

Capacity_October2011 (1)

PJM Eligible Systems

As of the end of October, there were 19,403 solar PV and 252 solar thermal systems registered and eligible to create SRECs in the PJM Generation Attribute Tracking System (GATS) registry. Of these eligible systems, 83 (0.42%) have a nameplate capacity of 1 megawatt or greater, of which only 6 systems are greater than 5 MW. The largest system, currently located in New Jersey, is 18.3 MW, and the second largest, located in Ohio is 12 MW. The third largest system, at 11.2 MW, is located in Delaware.

Delaware: The reporting year 2011-2012 requirement for DE equates to approximately 23,340 SRECs being retired. If all retired SRECs were of DE2011-2012 vintage, approximately 19.5 MW would need to be operational all year long. As of October 24, 2011, 22.7 MW of solar capacity was registered and eligible to create DE SRECs in PJM GATS. 11.2 MW of the 22.7 MW currently eligible is from the Dover Sun Park project developed by LS Power. In the 2011-12 compliance year, Delmarva Power has contracted to purchase 9,846 SRECs from the project, of which 7,000 are being held by the Sustainable Energy Utility (SEU) until 2015-16*. As of this writing, PJM GATS reported the issuance of 6,677 DE2011-2012 SRECs. Additional SRECs from the DE2010-2011 period may also impact the market should there be a demand for these older vintage SRECs.

Maryland: Maryland’s 2011 Solar RPS target requires approximately 32,240 SRECs to be retired. To meet this using only 2011 vintage SRECs, approximately 26.9 MW would need to be operational all year long. As of October 24, 2011, 52 MW of solar capacity was registered to create MD eligible SRECs. 30.8 MW of this capacity was sited in the state of MD. The RPS currently requires electricity suppliers to acquire SRECs from in-state sited solar systems before looking to outside systems. As of this writing, PJM GATS reported the issuance of 19,653 MD2011 SRECs from MD sited systems. There are also MD sited SRECs available from 2010, which could be utilized for compliance needs in 2011.

MD Chart

New Jersey: The New Jersey 2012 reporting year requires 442,000 SRECs to be retired. This equates to approximately 368 MW of capacity being operational all year long. Given the demand for NJ2011 Solar RECs, older vintage SRECs will not impact the 2012 market. As of October 24, 2011, 412.8 MW of solar capacity was registered and eligible to create NJ SRECs in PJM GATS. While this figure represents all projects registered in GATS, there are recently installed projects awaiting issuance of a New Jersey state certification number. This delay results in a portion of installed projects not yet represented in the 412.8 MW figure. As of August 31, 2011 the NJ Office of Clean Energy (NJ OCE) reported that 430.4 MW of solar had been installed in NJ. For more details on the increase in NJ capacity see this post. As of this writing, PJM GATS reported the issuance of 129,441 NJ2012 SRECs.

NJ Chart

Ohio: Ohio’s 2011 RPS solar target requires approximately 45,210 SRECs to be retired by the end of the compliance period. At least 50% of the SREC requirement must come from systems sited in the state. As of October 24, 2011, 27.4 MW of in-state capacity and 54.5 MW of out-of-state capacity were eligible to generate OH SRECs. Additionally, for the year to date, GATS has issued 21,137 in-state and 41,228 out-of-state OH2011 eligible SRECs. Additional SRECs from prior years are also eligible for the current compliance period, which may impact the current year’s requirements.

Pennsylvania: The reporting year 2012 requirement for PA equates to retiring approximately 48,430 eligible SRECs. If all compliance obligations were met using 2012 vintage SRECs, approximately 41.9 MW would need to be operational all year long. As of October 24, 2011, 146.4 MW of solar capacity was registered and eligible to create PA compliant SRECs. As of this writing, PJM GATS reported the issuance of 50,512 PA2012 SRECs. Given the oversupply during previous reporting years, there are also PA2012 eligible SRECs from the 2010 and 2011 reporting years.

Washington, DC: The Council of the District of Columbia and the city’s Mayor signed into law the Distributed Generation Amendment Act of 2011. The amendment increases the RPS solar requirements and closes the district’s boarders from out of district sited systems. The figures displayed above demonstrate the capacity of systems eligible to create DC SRECs moving forward. These figures do not take into consideration the amount of electricity delivered into the district that may be exempt from complying with the increases given some electricity contracts may have been signed prior to the amendment’s implementation. According to GATS, 16,744 DC2011 SRECs have been issued for the year to date. Some SRECs issued in the 2010 compliance period may also be available and can be used to meet the 2011 RPS solar requirements.

Massachusetts DOER Qualified Projects

As of October 24, 2011, there were 1,015 MA DOER qualified solar projects; 991 operational and 24 not operational. Of these qualified systems, 11 (1.1%) have a nameplate capacity of 1 megawatt or greater, of which only 3 are between 1.5 and 2 MW. Three of the projects greater than 1 MW are currently operational. Electricity suppliers providing power to the state need to acquire approximately 62,900 SRECs in 2011. Through the Q2 2011 issuance period (10/15/11), 9,499 SRECs have been minted. The Department of Energy Resources (DOER) projects approximately 29,000 SRECs to be generated this year, leaving the market short approximately 33,900 SRECs.

Capacity Summary By State

The tables above demonstrate the capacity breakout by state. Note, that for all PJM GATS registered projects, each state includes all projects certified to sell into that state. State RPS programs that allow for systems sited in other states to participate have been broken up by systems sited in-state and out-of-state. Additional detail has been provided to demonstrate the total capacity of systems only certified for one specific state market versus being certified for multiple state markets. For example, PA includes projects only certified to sell into the PA SREC market, broken out by in state and out of state systems, as well as projects that are also certified to sell into PA and Other State markets broken out by in state and out of state systems (i.e. OH, DC, MD, DE, NJ). PA Out of State includes systems sited in states with their own state SREC market (i.e. DE) as well as systems sited in states that have no SREC market (i.e. VA). Also, it is important to note that the Current Capacity represents the total megawatts eligible to produce and sell SRECs as of the noted date, while the Estimated Required Capacity – Current and Next Reporting Year represents the estimated number of MW that need to be online on average throughout the reporting period to meet the RPS requirement within each state. For example, New Jersey needs approximately 368 MW online for the entire 2012 reporting year to meet the RPS requirement. Additionally, the data presented above does not include projects that are in the pipeline or currently going through the registration process in each state program. This data represents specifically the projects that have been approved for the corresponding state SREC markets as of the dates noted.

*Source: State of Delaware Pilot Program For the Procurement of Solar Renewable Energy Credits: Recommendations of the Renewable Energy Taskforce

Note: SREC requirements for markets without fixed SREC targets have been forecast based based on EIA Report “By End-Use Sector, by State, by Provider”. Projected SRECs required utilizes the most recent EIA electricity data applying an average 1.5% growth rate per forecast year. The state’s RPS Solar requirement is then multiplied by forecast total electricity sales to arrive at projected SRECs required. Projected capacity required is based on a factor of 1,200 MWh in PJM states and 1,130 MWh in MA, generated per MW of installed capacity per year.

Pennsylvania Solar Advocacy Day (Monday, Oct. 24th)

Posted September 27th, 2011 by SRECTrade.

On Monday, October 24th PennFuture, Vote Solar, the Solar Alliance, and SUNWPA will hold a Solar Advocacy Day and Evening Reception at the Capitol building in Harrisburg. If you are part of Pennsylvania solar community this is an opportunity to educate policymakers and the media about solar in your state. The main focus of the advocacy day will be the support of the Solar Jobs Bill, which we’ve written a few blog postings about.

Here are the websites for the participating groups:

Vote Solar: national grassroots solar advocacy group
PennFuture: Pennsylvania environmental advocacy group
Solar Alliance: state-focused solar industry group
SUNWPA (Solar Unified Network of Western Pennsylvania): sub-group of PennFuture without a formal website

Click here to take action. Use the link to let your local PA state representative know that you support solar in PA.

If you have an advocacy event that you’d like SRECTrade to know about please email installers@srectrade.com

Solar Capacity in the SREC States – September 2011

Posted September 26th, 2011 by SRECTrade.

SRECTrade SREC Markets Report: September 2011

The following post outlines the megawatts of solar capacity certified and/or registered to create SRECs in the SREC markets SRECTrade currently serves.

For a PDF copy of this table click here.

Capacity_September2011

PJM Eligible Systems

As of the end of September, there were 18,822 solar PV (18,571) and solar thermal (251) systems registered and eligible to create SRECs in the PJM Generation Attribute Tracking System (GATS) registry. Of these eligible systems, 81 (0.43%) have a nameplate capacity of 1 megawatt or greater, of which only 6 systems are greater than 5 MW. The largest system, currently located in New Jersey, is 18.3 MW, and the second largest, located in Ohio is 12 MW. The third largest system, at 11.2 MW, is located in Delaware.

Beginning of energy year for DE, NJ, and PA

June 1, 2011 marked the beginning of the new energy year for DE, NJ, and PA. All requirements for these markets increase given their RPS solar carve out schedules. SRECs for the month of August, the third creation period for the new reporting year, will be minted at the end of September.

Delaware: The reporting year 2011-2012 requirement for DE equates to approximately 21 MW being online for the entire year or approximately 25,600 SRECs created. As of September 25, 2011, 20.8 MW of solar capacity was registered and eligible to create DE SRECs in PJM GATS. 11.2 MW of the 20.8 MW currently eligible is from the Dover Sun Park project developed by LS Power. In the 2011-12 compliance year, Delmarva Power has contracted to purchase 9,846 SRECs from the project, of which 7,000 are being held by the Sustainable Energy Utility (SEU) until 2015-16*.

New Jersey: The reporting year 2012 requirement for NJ equates to approximately 368 MW being online for the entire year with a fixed SREC requirement of 442,000 MWhs. As of September 25, 2011, 397.1 MW of solar capacity was registered and eligible to create NJ SRECs in PJM GATS. While this figure represents all projects registered in GATS, there are recently installed projects awaiting issuance of a New Jersey state certification number. This delay results in a portion of installed projects not yet represented in the 397.1 MW figure. As of July 31, 2011 the NJ Office of Clean Energy (NJ OCE) reported that 399.9 MW of solar had been installed in NJ. For more details on the increase in NJ capacity see this post.

Pennsylvania: The reporting year 2012 requirement for PA equates to approximately 44 MW being online for the entire year or approximately 53,000 SRECs created. As of September 25, 2011, 133.4 MW of solar capacity was registered and eligible to create PA eligible SRECs.

Washington, D.C. – Distributed Generation Amendment Act of 2011 Implemented

The Council of the District of Columbia and the city’s Mayor signed into law the Distributed Generation Amendment Act of 2011. The amendment increases the RPS solar requirements and closes the district’s boarders from out of district sited systems. The figures displayed above demonstrate the capacity of systems eligible to create DC SRECs moving forward.

Massachusetts DOER Qualified Projects

As of August 15, 2011, there were 861 MA DOER qualified solar projects; 829 operational and 32 not operational. Of these qualified systems, 11 (1.3%) have a nameplate capacity of 1 megawatt or greater, of which only 3 are between 1.5 and 2 MW. Three of the projects greater than 1 MW are currently operational.

Capacity Summary By State

The tables above demonstrate the capacity breakout by state. Note, that for all PJM GATS registered projects, each state includes all projects certified to sell into that state. State RPS programs that allow for systems sited in other states to participate have been broken up by systems sited in state and out of state. Additional detail has been provided to demonstrate the total capacity of systems only certified for one specific state market versus being certified for multiple state markets. For example, PA includes projects only certified to sell into the PA SREC market, broken out by in state and out of state systems, as well as projects that are also certified to sell into PA and Other State markets broken out by in state and out of state systems (i.e. OH, DC, MD, DE, NJ). PA Out of State includes systems sited in states with their own state SREC market (i.e. DE) as well as systems sited in states that have no SREC market (i.e. VA). Also, it is important to note that the Current Capacity represents the total megawatts eligible to produce and sell SRECs as of the noted date, while the Estimated Required Capacity – Current and Next Reporting Year represents the estimated number of MW that need to be online on average throughout the reporting period to meet the RPS requirement within each state. For example, New Jersey needs approximately 368 MW online for the entire 2012 reporting year to meet the RPS requirement. Additionally, the data presented above does not include projects that are in the pipeline or currently going through the registration process in each state program. This data represents specifically the projects that have been approved for the corresponding state SREC markets as of the dates noted.

*Source: State of Delaware Pilot Program For the Procurement of Solar Renewable Energy Credits: Recommendations of the Renewable Energy Taskforce

New Jersey looks to address SREC volatility, but does it know where to look?

Posted September 14th, 2011 by SRECTrade.

Over the past few months, the market-based Solar Renewable Energy Certificate (SREC) incentive that led New Jersey to become the nation’s second largest solar market has quickly become volatile after an unprecedented influx of new solar installations. In the first 7 months of this year alone, supply in New Jersey has grown from 260 MW to 400 MW. Over 100 MW have come online in the past four months alone; an astonishing number considering that the state’s first 260 MW took 10 years to install! The increased solar capacity in New Jersey means that the supply of SRECs, which represent one megawatt hour of solar energy produced, will be greater than the required number (demand) set by the New Jersey Renewable Portfolio Standard (RPS) for the first time since the state transitioned to a market-driven incentive program. As a result, SREC values have dropped from $640 in June , a price that reflected an undersupply in prior years, to a low of $165 in September.

Significant oversupply troubles
A drop in price is expected in a market-based system when supply catches up to demand. Over the past three years, solar installations have benefited from relatively high SREC prices as the state industry struggled to keep up with the demand set forth by the RPS. Therefore, it should be no surprise that SREC values would drop now that supply has reached level of demand. However, the true problem facing New Jersey is not just that supply has caught up with demand, it is that supply has considerably overshot demand – and will likely continue to do so through the end of the 2011 calendar year until the Federal grant expires.

The “2012” Energy Year in New Jersey runs from June 1, 2011 to May 31, 2012. Based on the required number of SRECs required (442,000), the state needs approximately 370 MW of capacity running on average throughout the 2012 Energy Year to meet the SREC requirement. With 400 MW installed at the end of July (month 2 of 12), the state will easily meet it’s requirement this year. Based on the state’s projections, solar capacity could be at 500 MW halfway through the 2012 Energy Year – enough capacity to meet the 2013 Energy Year requirement of 596,000 SRECs!

There are a few reasons why supply has overshot demand in New Jersey. The rapid increase is driven by large projects in the state’s solar pipeline that have come online over the past few months. There are currently 465 MW of projects in New Jersey’s pipeline that have been approved, but aren’t yet installed. These projects take months – if not years – to put together as developers travel the arduous financing, sales, permitting and interconnection approval processes before beginning construction. As a result, a stream of projects initiated in 2009 or 2010 are coming online in a time when the SREC market looks dramatically different than when these projects were conceived. Many of these projects will be forced through to completion in order to take advantage of the Federal grant before it expires at the end of 2011, perhaps with the hope that the SREC market will eventually rebound after 2012. This is a dangerous assumption that would have significant consequences for the New Jersey SREC market.

Homeowners and small business owners are the most at risk
The portion of the solar industry that gets hit the hardest by SREC price decline are the homeowners and small business owners who invested in their own systems. These retail solar generators are at a severe disadvantage to solar farms built by large institutions. Viable long-term contracts are scarce in the market as a whole, but because energy companies will not enter into contracts with non-creditworthy generators selling in small volumes, such contracts are nearly non-existent in the retail sector.

While large institutions can lock in long-term SREC contracts, the retail sector has been required to place its faith in the integrity of the market. These retail solar owners were sold systems when SREC prices were above $600, most with the impression that the market would push those prices down gradually over time – perhaps to $400 in the mid-term, $200 in the long-run, and eventually to $50 or less. That “distant future” of sub-$200 SREC prices has become a reality today because of the state’s rapid growth of large commercial and institutional solar projects.

Stakeholders put forth solutions
The New Jersey Board of Public Utilities (BPU) will convene to address the status of the SREC markets with a number of stakeholders in a public hearing on Thursday, September 15, 2011 at 401 E State Street in Trenton, NJ from 1 to 5pm EST. This meeting is intended to review the program as a whole, but the major topic to be addressed is the current volatility in pricing. There have been several solutions put forth. Some are unlikely to be approved, while some others don’t really address the main issues. Here are the common themes put forth thus far:

Increase the Demand: The New Jersey legislature is considering a change to the solar RPS that would move all of the yearly requirements forward by one year starting in 2013. The additional demand is intended to reduce the downward pressure on pricing. Unfortunately, this is a short-term solution that only postpones the underlying problem. New Jersey is on pace to add 250 MW of solar in this calendar year. Over the next 5 energy years, the RPS can only accommodate an additional 120-160 MW of solar in any given year. Moving the requirements up one year means that 2013 can accommodate 250 MW of added solar, but 2014 would drop back down to growth of 150 MW. If the state were to increase demand in a meaningful way to support the solar industry, it would need to start with annual growth of 250 MW as a baseline and increase it each year from there. Given the current political and economic climate, this type of support from the state seems unlikely – though it should really be given some serious thought, particularly in light of the Solar Alliance’s response to Christie’s Energy Plan.

Increasing demand also does not address the real problem here, which is that the NJ solar industry is unable to pace its growth within the confines of the established incentive structure. How do you get an industry able and willing to grow at a rate of 250 MW a year, to slow down to 150 MW? This problem doesn’t go away if the demand is increased to 250 MW in 2013, but the industry continues to scale up to the point where it adds 400 MW that year. Some are advocating that the industry learn this lesson the hard way, and to let the SREC price collapse play out. That would indeed be tough medicine for the industry; but the impact of such a price collapse, as we pointed out earlier, extends beyond the “industry” to the 10,000 solar system owners – many of whom are small-scale system owners who stand to face significant financial losses.

Establish a Floor Price: Massachusetts is currently the only SREC market with an established floor price, better described as a price support mechanism. It has been well-received particularly by the retail sector; however, the fact that the support mechanism has yet to be tested remains a key hurdle for many institutional players. Unfortunately, the differences in the way the New Jersey and Massachusetts markets are structured make it impossible for New Jersey to copy the Massachusetts model. Massachusetts designed it’s price floor by employing a creative set of rules that further incentivize energy companies to buy SRECs above the floor price, thus avoiding putting state resources at risk. Simply put, one mechanism the state can utilize is to increase the SREC requirement from one year to the next in order to assure that the market stays above the price floor. The RPS law in New Jersey, however, focuses on “predictability” – by design,  the yearly SREC requirement through 2026 is predetermined and the BPU cannot alter those requirements. Since NJ does not have a maximum capacity target of systems eligible for the SREC program (like MA does), the cost to the state could skyrocket with the imposition of a long-term price floor. Establishing a floor price mechanism in New Jersey that doesn’t put the state’s resources at risk would probably require a difficult overhaul of the program.

Require Long-Term Contracts: The concept of long-term contracts has proven, time and time again, to be at odds with a competitive electricity industry in New Jersey. Any proposals to this effect have quickly been shot down by the state legislature due to fears of locking electricity suppliers into long-term rates. The RFP solicitations put out by the state’s four electric distribution companies (or EDCs), JCP&L, PSE&G, RECO and ACE, have been the primary source of long-term SREC financing in New Jersey. Combined, these programs were capped at 140 MW of solar installations. As of the end of 2010, only 60 MW of the 260 MW installed in New Jersey had been installed from these programs. The EDCs don’t actually need to buy SRECs – the requirement is imposed, rather, on the state’s load serving entities (i.e. the electricity suppliers) – therefore the SRECs purchased by the EDCs in these programs are actually just sold back into the market. The EDC programs had been promoted by the BPU over the past few years because the state was struggling to meet it’s solar goals. Because a condition of the EDC program was that the EDCs were able to pass any losses on to their ratepayers, the 10-15 year contracts attached to the program could end up hurting ratepayers.  In 2010, 10-year contracts signed by the EDCs ranged from $426 to $465/SREC. Given current spot market SREC pricing, the EDCs stand to lose money on these contracts beginning in 2012. The RFP solicitations are set to expire in 2012 and it will be up to the BPU to determine if they should be extended. Given that they were initially established to support a market that was falling behind, it may be that the BPU decides the market can move forward without these programs. Nonetheless, if long-term contracts are made available to the entire market in a sustainable way, they would go a long way to address volatility concerns.

These solutions, however, can each be seen as trying to address the question: How do we avoid the forces which are inherent to a market? Price uncertainty and insufficient demand are normal forces in any competitive market. These proposed solutions, however, are shifting focus away from the true problems facing SREC markets and the main question that people should be asking, which is: How do we make this market work better so that we don’t run into these “emergency” situations? The concept of a market-based approach to incentives being successful relies on the assumption of efficient, rational markets. In SRECTrade’s experience, we see a lot of inefficiency and plenty of irrational behavior in the SREC market. In our opinion, the key focus needs to be placed on the answering the following two questions:

(1) Why does the supply-demand balance swing from one extreme to the other?

There is a significant time gap between the market signal (pricing) and the input (installing solar). Customers are sold systems based on today’s SREC price signal and then installed 3, 6, 9, 18 months from now; at which point the market could be fundamentally different. In an efficient market, the decision to buy something would result in an immediate action. With SRECs, the decision to buy does not yield an action for several months. This inefficiency manifested itself last year in New Jersey when the market was so attractive that everyone jumped signed up while the prices were high. As we fast forward to today, those projects are finally entering an already-flooded market, likely pushing through (despite a crashing SREC price) since they have already reached a “point-of-no-return” stage of the project. The BPU tries to address this by requiring projects to register during early stages, thereby creating a signal to the market that there is going to be incoming supply. The problem with this “pipeline”, however, is that there is no way of predicting if and when these registered projects will be built.

These issues are further exacerbated when you look at how incentives are aligned. Project developers make a living by selling and building solar systems. The last person who would want to admit to a prospective customer that the SREC market outlook is bleak is the sales person. Who can blame them? While there are companies that take a long-term approach to building a business, there are plenty of new entrants in the solar industry who need to find every possible angle to spin SRECs in a positive light because their business is dependent on getting this or the next deal done. It’s a real-life example of game theory – if everyone jumps in, everyone suffers; but, if you’re sitting on the sidelines while your competitor is overselling the benefits of SRECs, he or she is making money and you are losing business.

(2) Why are SREC prices so wildly volatile?

The other issue is a structural one that adversely affects price volatility in the market from one year to the next. Load-serving entities (LSEs), more commonly referred to as “electricity suppliers”, are the “natural” buyers of SRECs – meaning they are the entities that ultimately need them to satisfy the state’s requirements. They are required to report their SRECs to the BPU at the end of September each year, which in a June to May energy year like NJ means the compliance year’s SRECs are due 15 months after the trading period begins.

Natural buyers have no reason to be active in the market until the very end of the trading period. This has been historically evident in nearly all SREC markets, with the exception being New Jersey in energy years 2010 and 2011 when a severe under-supply meant that buyers needed to compete throughout the year. If you look at price trends in New Jersey in 2009, Massachusetts, Maryland and Ohio, SREC markets consistently see a spike in activity – and increase in pricing – at the end of the trading period (May – August in New Jersey, March – April in the other states whose compliance requirements follow a calendar year).

In an oversupplied market, natural buyers know that the SRECs they need will be available at the end of the year. They have little incentive to be active buyers in months 1-5 when they don’t truly need their SRECs until month 15. Meanwhile, sellers don’t have the luxury of waiting until month 15 for their cash flows. What follows is a staring contest (favoring buyers) as sellers get more and more desperate to sell their New Jersey SRECs, while traders benefit from the ensuing panic. Anyone that understands project finance in New Jersey knows that the economics don’t support SREC values at $165, but yet that’s where they are trading – not because that’s what the “market” is for SRECs, but because a few sellers have sold into what has become a trader’s market.

Third party traders do play a valuable role in the SREC market by providing liquidity throughout the year, but they also benefit from the volatility. With no urgency coming from the natural buyers, traders are meeting the needs of sellers chasing liquidity at any cost. This has driven SREC prices well below where anyone expected, and as long as the natural buyers can sit on the sidelines, the market will continue to cannibalize itself to the ultimate benefit of traders and LSEs. Addressing this structural issue would create more consistency in the market throughout the year. It doesn’t mean that New Jersey would go back to trading at $500+ (it won’t trade that high again) but prices would trend along a much smoother curve and settle at a value that is rational in the market.  With more volume traded on a regular basis, the market would better reflects today’s solar economics.

The long-term solutions in New Jersey would first address the mechanisms driving supply into the market in a way that promotes rational behavior. Some suggestions have been to regulate the supply coming into the market. That may give the BPU too much influence over a “market”. Ultimately, the answer will have to balance the needs of a competitive market with the assurances that everyone is acting in the best interests of the long-term viability of the market.

The BPU should also look at solutions that mobilize natural buyers earlier to create more consistent demand throughout the year. For a variety of reasons, it probably would not be feasible to break the reporting year into monthly or quarterly periods, though that could be one proposed solution. A modified solution would be to include the transaction date in the end-of-year report, with a requirement that the LSEs are held to some form of standard with respect to equal participation throughout the year. Either way, the inconsistency between the seller’s need for liquidity throughout the year and the buyer’s lack of urgency should be a key focal point for stakeholders looking at ways to address the volatility in the New Jersey market.

Solar Capacity in the SREC States – August 2011

Posted August 26th, 2011 by SRECTrade.

SRECTrade SREC Markets Report: August 2011

The following post outlines the megawatts of solar capacity certified and/or registered to create SRECs in the SREC markets SRECTrade currently serves.

For a PDF copy of this table click here.

Renewable Generators in GATS 8_25_11_v4

PJM Eligible Systems

As of the end of August, there were 18,112 solar PV (17,791) and solar thermal (321) systems registered and eligible to create SRECs in the PJM Generation Attribute Tracking System (GATS) registry. Of these eligible systems, 77 (0.43%) have a nameplate capacity of 1 megawatt or greater, of which only 6 systems are greater than 5 MW. The largest system, currently located in New Jersey, is 18.3 MW, and the second largest, located in Ohio is 12 MW. The third largest system, at 11.2 MW, is located in Delaware.

Beginning of energy year for DE, NJ, and PA

June 1, 2011 marked the beginning of the new energy year for DE, NJ, and PA. All requirements for these markets increase given their RPS solar carve out schedules. SRECs for the month of July, the second creation period for the new reporting year, will be minted at the end of August.

Delaware: The reporting year 2011-2012 requirement for DE equates to approximately 21 MW being online for the entire year or approximately 25,600 SRECs created. As of August 25, 2011, 20.5 MW of solar capacity was registered and eligible to create DE SRECs in PJM GATS. 11.2 MW of the 20.5 MW currently eligible is from the Dover Sun Park project developed by LS Power. In the 2011-12 compliance year, Delmarva Power has contracted to purchase 9,846 SRECs from the project, of which 7,000 are being held by the Sustainable Energy Utility (SEU) until 2015-16*.

New Jersey: The reporting year 2012 requirement for NJ equates to approximately 368 MW being online for the entire year with a fixed SREC requirement of 442,000 MWhs. As of August 25, 2011, 379 MW of solar capacity was registered and eligible to create NJ SRECs in PJM GATS. While this figure represents all projects registered in GATS, there are recently installed projects awaiting issuance of a New Jersey state certification number. This delay results in a portion of installed projects not yet represented in the 379 MW figure. On July 26, 2011 the NJ Office of Clean Energy (NJ OCE) reported that as of June 30, 2011 more than 380 MW (10,086 projects) of solar had been installed in NJ. The news release noted that 40 MW were installed in the month of June. The installation data for July 2011 has not yet been released by the NJ OCE. For more details on the the current NJ market conditions see this post.

Pennsylvania: The reporting year 2012 requirement for PA equates to approximately 44 MW being online for the entire year or approximately 53,000 SRECs created. As of August 25, 2011, 124.5 MW of solar capacity was registered and eligible to create PA SRECs in PJM GATS.

Massachusetts DOER Qualified Projects

As of August 15, 2011, there were 861 MA DOER qualified solar projects; 829 operational and 32 not operational. Of these qualified systems, 11 (1.3%) have a nameplate capacity of 1 megawatt or greater, of which only 3 are between 1.5 and 2 MW. Three of the projects greater than 1 MW are currently operational.

Capacity Summary By State

The tables above demonstrate the capacity breakout by state. Note, that for all PJM GATS registered projects, each state includes all projects certified to sell into that state. State RPS programs that allow for systems sited in other states to participate have been broken up by systems sited in state and out of state. Additional detail has been provided to demonstrate the total capacity of systems only certified for one specific state market versus being certified for multiple state markets. For example, PA includes projects only certified to sell into the PA SREC market, broken out by in state and out of state systems, as well as projects that are also certified to sell into PA and Other State markets broken out by in state and out of state systems (i.e. OH, DC, MD, DE, NJ). PA Out of State includes systems sited in states with their own state SREC market (i.e. DE) as well as systems sited in states that have no SREC market (i.e. VA). Also, it is important to note that the Current Capacity represents the total megawatts eligible to produce and sell SRECs as of the noted date, while the Estimated Required Capacity – Current and Next Reporting Year represents the estimated number of MW that need to be online on average throughout the reporting period to meet the RPS requirement within each state. For example, New Jersey needs approximately 368 MW online for the entire 2012 reporting year to meet the RPS requirement. Additionally, the data presented above does not include projects that are in the pipeline or currently going through the registration process in each state program. This data represents specifically the projects that have been approved for the corresponding state SREC markets as of the dates noted.

*Source: State of Delaware Pilot Program For the Procurement of Solar Renewable Energy Credits: Recommendations of the Renewable Energy Taskforce

Why Doesn’t Illinois have an SREC Market?

Posted August 25th, 2011 by SRECTrade.

The Illinois Renewable Portfolio Standard (RPS) has aggressive renewable energy goals. The RPS requires Investor-Owned Electric Utilities (EUs) and alternative retail electric suppliers (ARES) to have 25% of their electricity come from renewable resources by 2025, so why don’t we see a viable SREC market? Part of the story can be tied to anemic SREC incentives.

Within the 25% renewable requirement, 6% of the renewable energy procured from EUs and ARES must come from solar sources, with percentages starting lower, reaching 6% by 2016, and holding until 2025. This latest addition came into effect under HB 6202, the details of which can be seen here. The legislation goes into effect in June 2013, with incremental requirements leading up to 6% in June 2016. In order to meet this requirement, EUs and ARES are able to purchase Solar Renewable Energy Credits (SRECs) from private individuals and businesses throughout the mid-West and mid-Atlantic regions- not just from within Illinois.

A unique aspect of the Illinois RPS revolves around a forced alternative compliance payment (ACP), which states that ARES must meet 50% of their renewable quota by paying an ACP. This effectively divides the potential REC market in half as tradable RECs will only be utilized for 50% of the renewable quota. EUs and ARES can buy RECs from the PJM-GATS or M-RETS (Midwest Renewable Energy Tracking System) tracking registries, or just pay the ACP fine.

It’s unlikely that the Illinois market will be attractive for the following two reasons:

1) The ACP currently covers all renewable fuel types. Current ACP rates for June 1, 2011 through May 31, 2012 are estimated to be approximately $0.058 per MWh, with a maximum value of $2.158/MWh. ACP rates vary by utility territory and more information can be found here. There isn’t a separate “carve-out” for solar with a higher ACP rate. This means that REC values are much lower than necessary to incentivize the solar market with RECs alone. For comparison New Jersey’s RY2012 Solar ACP (SACP) is $658 per SREC.

2) Utility companies may opt to meet their full solar requirement by paying the relatively low ACP fine for not complying, rather than meeting the other “optional” 50 % requirement by paying for SRECs.

Other options for Illinois sited solar systems:

Illinois systems are eligible to sell SRECs in Pennsylvania if their facility is located in an area served by Commonwealth Edison (ComEd) utility. Currently, selling their SRECs into the PA market provides the highest value for SRECs coming from IL (ComEd) facilities, with pricing in August 2011 at $25 per SREC. Solar systems that are located in all of Illinois were previously able to sell SRECs into the D.C. market, but recent legislation has made that option no longer possible.

Other incentives have been put in place to help catalyze the Illinois solar market, though several lack the necessary funding to allow for widespread solar adoption. The Illinois Solar Energy Association runs an annual Renewable Energy Credit Aggregation Program (RECAP) that allows qualified systems to sell SRECs to the ISEA at a fixed rate of $200/SREC. Unfortunately, this program has exhausted its funding and is only accepting wait list applications.  The state of Illinois also offers a special property tax assessment for properties with solar systems. Finally, the state Solar and Wind Rebate program offered a 30% rebate to residential and commercial systems and a 50% rebate for non-profit or commercial systems before closing its latest round of funding in December 2010.

Solar Capacity in the SREC States – July 2011

Posted July 26th, 2011 by SRECTrade.

SRECTrade SREC Markets Report: July 2011

The following post outlines the megawatts of solar capacity certified and/or registered to create SRECs in the SREC markets SRECTrade currently serves.

For a PDF copy of this table click here.

Capacity_July11

PJM Eligible Systems

As of the end of July, there were 17,106 solar PV (16,792) and solar thermal (314) systems registered and eligible to create SRECs in the PJM Generation Attribute Tracking System (GATS) registry. Of these eligible systems, 70 (0.40%) have a nameplate capacity of 1 megawatt or greater, of which only 4 systems are greater than 5 MW. The largest system, currently located in New Jersey, is 18.3 MW, and the second largest, located in Ohio is 12 MW. The third largest system, at 10 MW, is located in IL and eligible for the MD, PA, and DC SREC markets. The fourth largest, at 6.2 MW, is located in New Jersey.

New Energy Year To Begin for DE, NJ, and PA

June 1, 2011 marks the beginning of the new energy year for DE, NJ, and PA. All requirements for these markets increase given their RPS solar carve out schedules. SRECs for the month of June, the first creation period for the new reporting year, will be minted at the end of July.

Delaware: The reporting year 2011-2012 requirement for DE equates to approximately 21 MW being online for the entire year or approximately 25,600 SRECs created. As of July 25, 2011, 9.1 MW of solar capacity was registered and eligible to create DE SRECs in PJM GATS.

New Jersey: The reporting year 2012 requirement for NJ equates to approximately 368 MW being online for the entire year with a fixed SREC requirement of 442,000 MWhs. As of July 25, 2011, 347.5 MW of solar capacity was registered and eligible to create NJ SRECs in PJM GATS. While this figure represents all projects registered in GATS, there are recently installed projects awaiting issuance of a New Jersey state certification number. This delay results in a portion of installed projects not yet represented in the 347.5 MW figure. On July 26, 2011 the NJ Office of Clean Energy (NJ OCE) reported that as of June 30, 2011 more than 380 MW (10,086 projects) of solar had been installed in NJ. The news release noted that 40 MW were installed in the month of June.

Pennsylvania: The reporting year 2012 requirement for PA equates to approximately 44 MW being online for the entire year or approximately 53,000 SRECs created. As of July 25, 2011, 115.7 MW of solar capacity was registered and eligible to create PA SRECs in PJM GATS.

Massachusetts DOER Qualified Projects

As of July 11, 2011, there were 682 MA DOER qualified solar projects; 649 operational and 33 not operational. Of these qualified systems, 11 (1.6%) have a nameplate capacity of 1 megawatt or greater, of which only 3 are between 1.5 and 2 MW. Three of the projects greater than 1 MW are currently operational.

Capacity Summary By State

The tables above demonstrate the capacity breakout by state. Note, that for all PJM GATS registered projects, each state includes all projects certified to sell into that state. State RPS programs that allow for systems sited in other states to participate have been broken up by systems sited in state and out of state. Additional detail has been provided to demonstrate the total capacity of systems only certified for one specific state market versus being certified for multiple state markets. For example, PA includes projects only certified to sell into the PA SREC market, broken out by in state and out of state systems, as well as projects that are also certified to sell into PA and Other State markets broken out by in state and out of state systems (i.e. OH, DC, MD, DE, NJ). PA Out of State includes systems sited in states with their own state SREC market (i.e. DE) as well as systems sited in states that have no SREC market (i.e. VA). Also, it is important to note that the Current Capacity represents the total megawatts eligible to produce and sell SRECs as of the noted date, while the Estimated Required Capacity – Current and Next Reporting Year represents the estimated number of MW that need to be online on average throughout the reporting period to meet the RPS requirement within each state. For example, New Jersey needs approximately 368 MW online for the entire 2012 reporting year to meet the RPS requirement. Additionally, the data presented above does not include projects that are in the pipeline or currently going through the registration process in each state program. This data represents specifically the projects that have been approved for the corresponding state SREC markets as of the dates noted.

Solar Capacity in the SREC States – June 2011

Posted July 5th, 2011 by SRECTrade.

SRECTrade SREC Markets Report: June 2011

The following post outlines the megawatts of solar capacity certified and/or registered to create SRECs in the SREC markets SRECTrade currently serves.

For a PDF copy of this table click here.

Capacity_June2011_1

PJM Eligible Systems

As of the end of June, there were 16,381 solar PV (16,069) and solar thermal (312) systems registered and eligible to create SRECs in the PJM Generation Attribute Tracking System (GATS) registry. Of these eligible systems, 65 (0.40%) have a nameplate capacity of 1 megawatt or greater, of which only 4 systems are greater than 5 MW. The largest system, currently located in New Jersey, is 18.3 MW,  and the second largest, located in Ohio is 12 MW. The third largest system, at 10 MW, is located in IL and eligible for the MD, PA, and DC SREC markets. The fourth largest, at 6.2 MW, is located in New Jersey.

New Energy Year To Begin for DE, NJ, and PA

June 1, 2011 marks the beginning of the new energy year for DE, NJ, and PA. All requirements for these markets increase given their RPS solar carve out schedules. SRECs for the month of June, the first creation period for the new reporting year, will be minted at the end of July.

Delaware: The reporting year 2011-2012 requirement for DE equates to approximately 21 MW being online for the entire year or approximately 25,600 SRECs created. As of June 30, 2011, 9.1 MW of solar capacity was registered and eligible to create DE SRECs in PJM GATS.

New Jersey: The reporting year 2012 requirement for NJ equates to approximately 368 MW being online for the entire year with a fixed SREC requirement of 442,000 MWhs. As of June 30, 2011, 332 MW of solar capacity was registered and eligible to create NJ SRECs in PJM GATS. As of April 30, 2011, the NJ Office of Clean Energy (NJOCE) reported that 330.5 MW (9,181 projects) of solar had been installed in the state. The NJOCE data shows that from November 2010 – April 2011, the average installed capacity per month was 18 MW. Forecasts prepared by the NJOCE, show the monthly rate of installation through September 2011 ranging between 17 – 30 MW per month depending on different scenarios.

Pennsylvania: The reporting year 2012 requirement for PA equates to approximately 44 MW being online for the entire year or approximately 53,000 SRECs created. As of June 30, 2011, 104.8 MW of solar capacity was registered and eligible to create PA SRECs in PJM GATS.

Massachusetts DOER Qualified Projects

As of May 6, 2011, there were 524 MA DOER qualified solar projects; 467 operational and 57 not operational. Of these qualified systems, 11 (2.1%) have a nameplate capacity of 1 megawatt or greater, of which only 3 are between 1.5 and 2 MW. Three of the projects greater than 1 MW are currently operational.

Capacity Summary By State

The tables above demonstrate the capacity breakout by state. Note, that for all PJM GATS registered projects, each state includes all projects certified to sell into that state. State RPS programs that allow for systems sited in other states to participate have been broken up by systems sited in state and out of state. Additional detail has been provided to demonstrate the total capacity of systems only certified for one specific state market versus being certified for multiple state markets. For example, PA includes projects only certified to sell into the PA SREC market, broken out by in state and out of state systems, as well as projects that are also certified to sell into PA and Other State markets broken out by in state and out of state systems (i.e. OH, DC, MD, DE, NJ). PA Out of State includes systems sited in states with their own state SREC market (i.e. DE) as well as systems sited in states that have no SREC market (i.e. VA). Also, it is important to note that the Current Capacity represents the total megawatts eligible to produce and sell SRECs as of the noted date, while the Estimated Required Capacity – Current and Next Reporting Year represents the estimated number of MW that need to be online on average throughout the reporting period to meet the RPS requirement within each state. For example, New Jersey needs approximately 255 MW online for the entire 2011 reporting year to meet the RPS requirement. Additionally, the data presented above does not include projects that are in the pipeline or currently going through the registration process in each state program. This data represents specifically the projects that have been approved for the corresponding state SREC markets as of the dates noted.

Solar Capacity in the SREC States – May 2011

Posted June 1st, 2011 by SRECTrade.

SRECTrade SREC Markets Report: May 2011

The following post outlines the megawatts of solar capacity certified and/or registered to create SRECs in the SREC markets SRECTrade currently serves.

May 2011 Updated JPEG

PJM Eligible Systems

As of the end of May, there were 15,480 solar PV (15,203) and solar thermal (277) systems registered and eligible to create SRECs in the PJM Generation Attribute Tracking System (GATS) registry. Of these eligible systems, 59 (0.38%) have a nameplate capacity of 1 megawatt or greater, of which only 3 systems are greater than 5 MW. The largest system, currently located in New Jersey, is 18.3 MW,  and the second largest, located in Ohio is 12 MW. The third largest system, is located in IL and eligible for the MD, PA, and DC SREC markets, is 10 MW.

Massachusetts DOER Qualified Projects

As of May 6, 2011, there were 524 MA DOER qualified solar projects; 467 operational and 57 not operational. Of these qualified systems, 11 (2.1%) have a nameplate capacity of 1 megawatt or greater, of which only 3 are between 1.5 and 2 MW. Three of the projects greater than 1 MW are currently operational.

Capacity Summary By State

The tables above demonstrate the capacity breakout by state. Note, that for all PJM GATS registered projects, each state includes all projects certified to sell into that state. State RPS programs that allow for systems sited in other states to participate have been broken up by systems sited in state and out of state. Additional detail has been provided to demonstrate the total capacity of systems only certified for one specific state market versus being certified for multiple state markets. For example, PA includes projects only certified to sell into the PA SREC market, broken out by in state and out of state systems, as well as projects that are also certified to sell into PA and Other State markets broken out by in state and out of state systems (i.e. OH, DC, MD, DE, NJ). PA Out of State includes systems sited in states with their own state SREC market (i.e. DE) as well as systems sited in states that have no SREC market (i.e. VA). Also, it is important to note that the Current Capacity represents the total megawatts eligible to produce and sell SRECs as of the noted date, while the Estimated Required Capacity – Current and Next Reporting Year represents the estimated number of MW that need to be online on average throughout the reporting period to meet the RPS requirement within each state. For example, New Jersey needs approximately 255 MW online for the entire 2011 reporting year to meet the RPS requirement. Additionally, the data presented above does not include projects that are in the pipeline or currently going through the registration process in each state program. This data represents specifically the projects that have been approved for the corresponding state SREC markets as of the dates noted.

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