Sunday, August 21, 2011

A Revelation From Fred Claire: How to Negotiate With a Competitor


In closed or limited organizational ecosystems, you have to be able to
negotiate with competitors. Not all of us work in closed systems, but unless
you're the rarer than rare person who has so much power he can force his will on
everyone (say, Saparmurat
Niyazov
or  Lloyd Blankfein) sooner or later, you'll be negotiating
with a competitor. It could be external...a company that's a direct competitor,
or internal, a territorial manager of an adjacent department or a department you
are competing with for resources.


Baseball is an almost-entirely closed system. Whenever you make a deal with
another team, you are pushing hands with an antagonist who, in a zero-sum
system, is seeking the exact same end goals you are: a World Series trophy. So
any asset to your side of the equation is most likely a debit on her side. In a
zero-sum system, it's pretty rare to get to a win-win outcome. (Bill
Bavasi
told me this, btw, is one of the reasons some GMs far prefer free
agent signings -- it doesn't collide with the zero-sum nature of trading in a
closed system.
)


SO HOW DO YOU DO IT?

Well, if it can be done anywhere, it will happen in the most vibrant, flexible,
advanced management arena in the world, Baseball. And the way you do it is to
analyze the situation in agonizing depth, or at least to a level considered
agonizing in the bush league management arenas that are the ones Beyond
Baseball.


I'll give you a great example I read recently in Fred Claire's 2004 book My
30 Years in Dodger Blue
. The situation is this: In 1998, the Bums'
catcher and primo team star, Mike Piazza, and coming off arguably the best-ever
offensive season a catcher had ever had, was to become a free agent. Claire and
the Dodgers fiercely wanted him to stay, but new corporate ownership (Fox) was
focused elsewhere, and enforcing the normal post-takeover budgetary tightness,
while Team Piazza was indicating they were seeking the fattest contract in
Baseball history. Pre-season negotiations had failed to close the deal, so
Piazza entered the season unsigned, an indicator to other teams that he might be
traded (since a team that holds on to a good player who leaves for free agency
& signs w/another team is very unlikely to recover "full" value
for the loss of services). Other General Managers, such as the Florida Marlins' Dave
Dombrowski,
a leading practitioner of negotiating arts, would float offers, in the hopes of
adding immediate wins, or adding wins and signing the star, or alternatively,
flipping him to another team looking for immediate wins in exchange for a
handful of promising cheap youngsters.


So, this excerpt from Claire's book:



In that call, on April 10, our negotiations
with Piazza on hold, Dombrowski had inquired about Mike. His approach was
very direct -- "Fred, would you trade Mike Piazza and a young,
low-salaried pitcher for Charles Johnson, Gary Sheffield and Jim Eisenreich?"


I knew Dombrowski was under orders from
Florida owner Wayne Huizenga to unload payroll after the Marlins had won the
World Series the previous season and yeat had lost money in the process.
Sheffield was at the top of the Marlin salary list in that he had just signed
a six-year deal that paid him $61 million from 1998 through 2003.


Dombrowski figured if he could trade
Sheffield for Piazza, the Marlins would be free of the bulk of their future
payroll obligations. Furthermore, Dombrowski would be in a position to
acquire young players for Piazza in that Mike was in the last year of his
contract.


I went to Graziano
[Claire's boss] and told him {snip} I wanted to reply
to Dombrowski that we weren't interested in discussing Piazza because we
wanted to sign Mike, but we were interested in Sheffield.


My reasoning: I felt that as long as
Sheffield remained the focus of trade discussions, Charles Johnson would
remain a Marlin. The two made an attractive trade package, the high-priced
slugger paired with the lower-priced but highly-valuable catcher. If Fox
decided Piazza had to go, Johnson would be just the replacement we needed.

{snip}
 



A subtle, masterful playing of the chess board that can only happen because
Claire's workgroup has come to a blisteringly thorough understanding of the
other side of the negotiating table. The Dodgers still want to sign Piazza, but
they may not be able to, for whatever financial or corporate-political or
personal reasons. The Dodgers would like to keep the Marlins' younger, cheaper catcher
(and not as fine a player, but already Johnson was an All-Star and had won a
Gold Glove) in the trading pool so the Dodgers might snare him as a contingency
if Piazza left. But Johnson was a most-attractive player beyond his on the field
value; he was a logical pairing with Gary Sheffield, the personally difficult
but extremely productive and extremely expensive slugger in a trade.


So to keep Johnson from leaving the Marlins, Claire hoped to pin
the Marlins by expressing more interest in Sheffield than the Dodgers really
had. Getting Sheffield's and Johnson's prowess and payroll obligations wouldn't
necessarily be a tragedy, but why not try to get the sweeter benefit/cost
pairing alone (in Johnson)?


ADVANCED NEGOTIATION 400, IN, AND BEYOND BASEBALL

To attempt this required nothing less than the striving for total data
omniscience.


Claire and his group needed to:



  • examine the dollar and playing values,

  • learn and interpret the other side of the table's motivations and short-
    and long-term plans,

  • interpret the Marlins' valuation systems and measuring factors as well as
    their own, and

  • come up with either a win-win match-up, or, barring that,

  • a ploy that would freeze the Marlins pursuit of other deals as long as
    possible .


And, oh yeah, without totally burning the other side of a table, because
(especially) in a closed system, you don't want to set off a neutron bomb (a
deal so bitter that it guarantees one side will never again do business with the
other).


In your own management, consider how complex the preparation for this
negotiation was. Are you good enough for Baseball (that is, do you prepare this
way)? You can in most cases, of course. It requires a level of research most
managers Beyond Baseball are unwilling to t`ke on.


Maybe you can't be as skilled as Fred Claire, but I promise you it's worth
trying.

Wednesday, June 15, 2011

PV Installations Expected to Grow 15% in 2011 to 21 GW

More than 21 GW of new PV capacity is predicted to be installed this year - up from around 18 GW in 2010, according to IMS Research's latest report on PV demand.

The firm says it has raised its outlook for this year based on new information regarding supply chain pricing which will help stimulate demand in major markets. However, it also cut its long-term forecast slightly due to decreasing incentives in several markets.

IMS Research's latest analysis of global PV demand revealed that installations will grow just 15% this year and that prices are falling rapidly enough to create another surge in demand in markets such as Germany.

In addition, now that the decree in Italy on incentives has finally been implemented, life will return to the paralyzed market, which was simply waiting and watching in the first quarter of this year (Q1'11), IMS Research says. Installations were 37% down in the quarter, with approximately 3.5 GW of new capacity. This number is forecast to increase steadily each quarter throughout the year, culminating in a very large fourth quarter.

One significant outcome from the latest PV demand database is that European installations will fall this year and next year.

"Europe's share of the PV market will fall considerably in the next three to five years; in fact, we predict European installations will decline in both 2011 and 2012 and will not return to the 2010 level for quite some time," says Ash Sharma, PV research director.

"Despite many governments' indicating that renewable energy will become a larger part of their energy policies in the wake of the Fukushima crisis, it is less clear whether this talk will translate to real support for the PV industry," Sharma adds. "The governments associated with most major markets have either cut incentives recently, or indicated that they will do so soon.

"We predict demand from Germany and Italy alone to fall by 3 GW in 2012, and Europe's share of global demand to fall from 80 percent in 2010 to 56 percent in 2012," he adds.

IMS Research also predicts a single-digit decline for PV installations in 2012 due to both the falls forecast in Europe and uncertainty in the U.S. and Asia. Although both of these markets are growing well this year and are predicted to exceed 5 GW combined, it is not yet clear if growth can be sustained in 2012 and if government policy will fully support PV.

Although the Chinese government announced it was to double its target for PV capacity, IMS Research believes that market growth will be limited to government-controlled projects and that a feed-in tariff will not be introduced for several years, as system prices are considered too high.

"Yet again, the outcome of the PV industry's development in 2012 will be entirely dependent on reducing costs rapidly enough in order to keep prices in line with incentives in major markets," says Sharma. "Although margins are now being squeezed and prices are beginning to fall, further reductions are needed in 2012, and the key now lies in polysilicon and wafer supply to do this."

source:  IMS Research

Germany Sets Goal of 35% Renewable Energy by 2020

German Chancellor Angela Merkel, along with cabinet members, has announced an accelerated energy plan for the country. Under the plan, all nuclear power stations in Germany will be shut down by 2022, as the country "aims to enter the age of renewables as quickly as possible."

"The resolution is absolutely clear," the announcement states. "There is no loophole that would allow power stations to operate beyond this cut-off date in order to deliver agreed-upon electricity quotas."

As the nuclear facilities are decommissioned, Germany will increase its percentage of energy generated from solar energy and other renewable energy sources. The target is to raise the percentage from 17% today to 35% in 2020. For this to be achieved, the new energies must be reliable and marketable, the government adds.

"We need an entirely new architecture for our energy system and energy supply for the electricity of the future," Merkel stated.


Source:  Solar Industry

US, UK to cut national power supplies in preparation for massive solar storms

Periodic solar events involving solar flares, coronal mass ejections (CME), and geomagnetic storms, are capable of disrupting and damaging transformers, radio equipment, and even entire power grids, depending on their strength. In the event of a massive Category 5 solar storm, which is the most severe type and the type experts say may hit the earth very soon, electrical and radio systems could be completely destroyed. This has prompted officials from both the United Kingdom and United States to announce plans of controlledpower"blackouts" to prevent national electricity grids from massive destruction.

The BritishIndependentreports that scientists from the UK Met Office, aweatherand climate change organization, are taking thethreatso seriously that they are constructing a second space weather prediction center to help "coordinate a global response" to the threat. And US officials are onboard with the initiative as well, as they agree that action must be taken to prevent power systems from extensive damage, which in effect could bring down entire nations.

"It points to a potential scenario where large parts of either North America or northern Europe may be without power from between days or weeks, to perhaps months and, in extreme cases, there are estimates that it could last years," said Dr. Thomas Bogdan, director of the US Space Weather Prediction Center, to theIndependent.

The M-2 class (medium size) CME that took place on June 7, for instance, could have had a much more devastating impact on theearthhad it been pointed directly at it -- and that was only a moderate solar storm. With the recent uptick in this and other solar activity through the month of May, which represents the beginnings of a new period of "solar maximum" activity following a decades-long "solar minimum" period, experts fear larger, more damaging solar events could be on the way



Source:  Natural News

Learn more about CME's and GPS failures, cell phone disruptions, massive grid failure and the 22 year solar cycle on our website   





Tuesday, June 14, 2011

Saudi Arabia to Become the Saudi Arabia of Solar Electricity

A couple days ago Bloomberg reported the following: "Saudi Arabia plans to generate solar electricity equaling the amount of its energy from crude exports, Oil Minister Ali Al-Naimi said." Wait, what?

That sounds like a ridiculous quantity of solar electricity. The article doesn't say quantitatively how much energy that is, so I did a quick check. Saudi Arabia exportsabout 2.7 billion barrels of oil per year, each containing the equivalent of 1,700 Kilowatt hours of electricity for a total of 4.59 × 1012 kWh per year, or the equal of about one quarter or the world's annual electricity demand.

TATA and Dyesol Produced World's Largest Dye-sensitized PV Module

An important breakthrough has been achieved at TATA Steel’s Shotton site in North Wales, where a development partnership between TATA Steel and Dyesol has produced the world’s largest dye sensitised photovoltaic module.

The module is over 3 metres in length and approximately 1 square meter in area and represents an important step in the development of large-scale micro energy generation capability within the infrastructure of buildings.

Creation of the module has shown the potential, using continuous printing and coating processes, for scaling up the production of steel strips onto which a dye sensitized photovoltaic coating has been printed. Produced as a single length of coated steel rather than separate cells connected together, the breakthrough brings closer to commercial realization the two companies’ ambitions to develop a manufacturing process that can produce long roofing panels with an integrated dye sensitized photovoltaic function.

Mr Paul Bates operations manager of the TATA Steel Colors PV Accelerator commented that “The TATA Steel and Dyesol team has worked hard to translate laboratory concepts to pilot-line scale, and has successfully produced hundreds of metres of printed steel and polymer film that go into our demonstration product.”

Dr Mikael Khan lead scientist of Dyesol UK Ltd commented that “This module demonstrates the feasibility of a continuously printed dye sensitized product. The materials and processes we have created move the process from the production of single cells into the continuous production, from rolls, of lengths of finished modules that would be ideal for roofing applications.”

Dye sensitized photovoltaic modules have unique performance characteristics, being particularly tolerant of lower light levels and temperature variations, providing benefits in real-world conditions. Developing the ability to print the PV coating directly onto steel roof cladding would enable the modules to be produced in large volumes cost effectively and integrated into building envelopes.


Q-Cells breaks record for Polycrystalline Efficiency

Germany-based Q-Cells SE has developed a solar cell with an efficiency of 19.5%.According to the company, this efficiency, which was confirmed by the independent calibration laboratory of Fraunhofer ISE, represents a new record for polycrystalline cells.

The solar cell is based on the new Q.ANTUM concept developed by Q-Cells in recent years. Peter Waver, senior vice president of technology at Q-Cells, says the company will continue optimizing the cell in order to reach efficiencies above 20%.

At Q-Cells' in-house research center in Thalheim, Germany, a polycrystalline 180-µm-thick silicon wafer was metallized and passivated with functional nanolayers on the back side. According to the company, this new type of structure for the back side, consisting of dielectric layers combined with local contacts, improves the solar cell's optical and electrical characteristics and significantly boosts output compared to the previous standard technology, which uses a completely aluminum-metallized back.

Source: Solar Industry

Is the Solar Installation Industry Ripe for Consolidation?

Solar installation is a low margin business with low barriers to entry, but consolidation may bring competitive advantages in some sectors of the market.



At the small, residential scale, there are practically no barriers to entry.  There is a wealth of training material available, both in person and online, which enables even a one-man contractor to become certified to install solar.  

At the larger, commercial scale, the main barrier to entry is capital, not expertise.  According to Coen, there is a national trend towards the financiers owning the solar project, and consultants can manage the project for them and bring together all the necessary expertise to develop a project from the initial site assessment to final commissioning. 
  

Oregon Town Gets a Lot of Solar for a Little Money


The upfront cost has always been the biggest barrier to solar PV adoption, and one Oregon town has found an innovative way to help its citizens buy down that cost.
The city borrowed from the sewer account to offer no-interest loans of $9,000 each. The repayment schedule, over four years, is tied to residents' tax returns each spring, when they receive refunds of state and federal renewable energy tax credits.
All told, Lehman estimates the program will cost the city only $10,000 in lost interest over four years.
While the loan terms are short (4 years), the repayment plan is tied to the state and federal tax credit schedule, essentially allowing interested home and business owners the chance to finance solar directly with those credits, rather than having to put their own money up front.
The loan program spurred over 50 solar PV installations in 2010, in a town of just 16,500 residents.  The residents not only received discount financing, but the city helped aggregate the purchase of the solar panels to get participants a "group buy" discount.  Assuming a system size of 3 kilowatts and installed cost of $6.00 per Watt, the city's $10,000 investment got their residents approximately $1 million worth of new solar power.
The increase in solar installation activity had an effect even for those who didn't use the town's financing option:
Ken Abbott, a retired postal employee, didn't use the loan program but took advantage of the lower installation prices that resulted from the large number of buyers.
Pendelton's lesson to cities is that you don't need a lot of money to make it a lot easier to go solar.
This post originally appeared on Energy Self-Reliant States, a resource of the Institute for Local Self-Reliance's New Rules Project.

View:   It can pay to work with your local community to make solar a reality for lots of people

Friday, June 3, 2011

Conergy Introduces Residential PV Inverter Unit With Energy Storage Capabilities

Everybody is used to storing food in their refrigerator  ... now you can store your solar energy too.


Germany-based Conergy says it has developed a new solar storage solution incorporating an integrated string inverter and an intelligent energy-management system based on modern lithium-ion technology.

With its nominal power of 5.5 kW and a storage capacity of up to 13.2 kWh, the hybrid inverter is designed for four-person households. The refrigerator-sized device weighs 220 kgs.

"In the future, customers will be able to store their sunshine during the day and then use it in the evening or at night, even if the sun went down hours ago," explains Eike Fruhbrodt, product manager at Conergy.   


Source:  Conergy




PV Inverter Shipments Decline 39% As Product Inventory Builds

Global PV inverter shipments declined to 4 GW in the first quarter of this year (Q1'11) - 39% lower than the previous quarter, but 31% higher than in Q1'10, according to IMS Research's latest quarterly report on the market.

Rising channel inventory in markets such as Germany, Italy and France contributed to the disappointing first-quarter results. The report is based on actual sales and shipment data from 35 of the largest PV inverter suppliers, including the largest Chinese vendors. It revealed that although the first quarter of the year is traditionally weak for the PV inverter industry, the 39% sequential drop in Q1'11 shipments was much larger than the 17% drop seen a year earlier.

"Q1'11 was a difficult quarter for inverter suppliers," says Ash Sharma, PV research Director at IMS Research. "Inventory began to build in late 2010, and this continued with order cancellations common for suppliers during the quarter. Q1'11 is now the second quarter in succession where shipments have fallen."

Following a trend seen in late 2010, Germany continued to become less important to the PV inverter industry in Q1'11, according to IMS Research. Since the company began tracking quarterly shipments, Q1'11 was the first quarter when Italy had a larger market than Germany, with over 1.2 GW shipped.

Inventory may be a likely destination for the inverters, given that uncertainty caused by a review of the Italian feed-in tariff (FIT) in Q1'11 halted project financing and stalled the market.

"Even with uncertainty during the quarter, inverter demand stayed buoyant, with installations still being completed from the previous Conto Energia FIT scheme, which expired at the end of 2010," Sharma says.

Germany's falling share of the inverter market was also apparent in the results of its supplier base, with many German suppliers losing share of the global market, the report adds. Market leader SMA Solar Technology reported quarterly results that were down on the same period in 2010. U.S.-based suppliers, such as Satcon and Advanced Energy, continued to perform strongly, because they were less exposed to the stalling European markets.

IMS Research predicts only slow growth in demand for inverters in Q2'11, because several gigawatts of inventory is being held throughout the supply chain. Weak demand in Europe is not clearing the inventory quickly enough for strong growth to return, the company says.



Source:  Solar Industry




Solar Modules Escape Toxic-Substance Ban In EU Decision

Good news for First Solar - Ministers from the European Union (EU) have voted to exempt PV modules from European law that bans certain toxic substances in electrical goods, Reuters reports.

The toxic-substances ban applies to six specified hazardous substances, including the cadmium used in thin-film modules manufactured by First Solar and other companies.

"In order to attain the EU's ambitious targets for renewable energy and energy efficiency, photovoltaic panels to produce energy from solar light do not have to comply with the restriction," the ministers stated.


Source:  Reuters



Tuesday, May 24, 2011

Record Module Inventory Awaiting Installation As Prices Continue To Fall

Global PV module inventory levels have reached over 10 GW in the second quarter of 2011, the highest amount recorded to date, according to the latestanalysis from IMS Research.

High inventory levels, as well as lower incentive levels in key European markets, have contributed to rapidly decreasing prices during the quarter, the company says.

A sudden slowdown in completed installations due to the halting of the Italian market, as well as a slower than expected start to the year in other key European markets, has led to a sharp increase in stock levels throughout the supply chain. Inventory levels at manufacturers, distributors, integrators and installers have all climbed during the first half of 2011.

Most of this record inventory has already been shipped by module manufacturers and is located in distribution and sales channels. IMS Research estimates that almost 8 GW of modules are currently shipped by suppliers, but have yet to be installed and connected to the grid.

"Throughout 2010, when all products were moving quickly through the supply chain, channel inventory typically stood at four to five GW; which is roughly equivalent to one quarter's production," says Sam Wilkinson, a PV research analyst at IMS Research. "Generally speaking, a module will take around three months to be shipped, transported and make its way through distribution channels before being installed, so this figure appears reasonable."

"Many in the industry consider today's inventory level to be shocking," Wilkinson adds. "However, it represents an increase of only around three to four GW over 'normal' levels."

In addition to the large channel inventory of modules, supplier inventory has also grown quickly in early 2011; most suppliers are reporting that year-to-date production has far exceeded shipments. The resulting increase in modules held in stock by suppliers has taken the total PV module inventory over the 10 GW mark, IMS Research explains.

The company predicts that further declines in average PV module prices will lead to a strong recovery in the PV market, in particular, led by growth in Germany and the U.S. High inventory levels are expected to begin to be corrected in the third quarter.

Source:  Solar Industry


PV LEGAL Reports Progress In Reducing Barriers To Solar Deployment

After almost two years of operation, the PV LEGAL consortium says that "real progress" has been made removing legal and administrative barriers to solar PV in a number of the countries involved in this European Union-funded project.

Starting in July 2009, the PV LEGAL project has enabled countries, such as Greece and Slovenia, to improve their legal-administrative framework for the development of photovoltaic systems.

In Greece, procedures for residential systems were simplified in summer 2010: A one-stop shop was set up, reducing the procedure to a single step, and systems in autonomous islands are now authorized. The procedure to install systems on historical buildings has also been simplified.

In Slovenia, changes in September 2010 meant that PV systems of less than 1 MW no longer require a building permit, which was a major road block for the development of small- to medium-size systems, the consortium says.

However, in some cases, such as in Spain or the Czech Republic, procedures have become considerably more onerous, to the extent that it is now sometimes impossible to get a grid connection permit for projects, seriously hindering market development. According to the consortium, in some cases, these barriers have been deliberately introduced recently by the national authorities in order to slow down or even stop PV development.

The latest update from the PV LEGAL is designed to provide a comprehensive overview of administrative barriers hampering the development of PV in Europe. It covers 12 countries, including most of the main photovoltaic markets in Europe: Bulgaria, the Czech Republic, France, Germany, Greece, Italy, the Netherlands, Poland, Portugal, Slovenia, Spain and the U.K.


Source:  PV Legal / Solar Industry


Virgin Islands Utility Seeking 10 MW Of Solar PV Capacity

The Virgin Islands Water and Power Authority has issued a request for proposals (RFP) to purchase solar photovoltaic generation from independent power producers. The authority is seeking a maximum of 10 MW of electrical capacity, allocating approximately 5 MW to each of its two generation facilities serving the districts of St. Thomas-St. John and St. Croix.

Consideration will be given to a different allocation of the 10 MW capacity between the two districts. The selected respondents will be responsible for constructing, operating and maintaining all facets of the project. The utility will sign a 20-year power purchase agreement (PPA) for the procurement of solar energy from one or more selected respondents, with an option to renew for another 5 years.

To assist interested bidders, the preferred model of the PPA, with specific terms and general concepts important in developing responsive proposals is included in the RFP. Under the PPA, projects are required to be commercially operational 18 months after approval of the agreement by the authority's governing board and the Virgin Islands Public Services Commission.

The full solar PV RFP can be viewed here.


http://www.viwapa.vi/Home.aspx


DOE Offers $737 Million Loan Guarantee To SolarReserve's Crescent Dunes Solar Project

SolarReserve, a Santa Monica, Calif.-headquartered developer of large-scale solar power projects, says the U.S. Department of Energy (DOE) has offered the company a conditional commitment for a $737 million loan guarantee for the 110 MW Crescent Dunes Solar Energy Project to be built in Tonopah, Nev.

According to the company, the DOE loan guarantee offer is a critical step in the progress of this landmark project, with construction slated for this summer and the start of operations in late 2013.

Electricity from the project, which will use SolarReserve's molten-salt power-tower technology, will be sold to NV Energy under a long-term power purchase agreement approved by the Nevada Public Utilities Commission in 2010.


Source:   SolarReserve

Sunday, May 22, 2011

New York City Seeking Bids For Solar PV Installations On City Buildings

New York Mayor Michael R. Bloomberg, Deputy Mayor for Operations Stephen Goldsmith, Department of Citywide Administrative Services Commissioner Edna Wells Handy and Office of Long-Term Planning and Sustainability Director David Bragdon have announced that the city is seeking proposals from private companies to install and operate solar energy systems on five city buildings.

Under this public-private partnership, a solar developer will install, own and operate photovoltaic systems for 20 years and leverage federal incentives to sell the electricity to the city at a discounted cost. The five sites are John F. Kennedy High School and Herbert Lehman High School, both in the Bronx; the Department of Sanitation's Manhattan District 12 garage; and two locations in Staten Island: the Department of Environmental Protection's Port Richmond wastewater treatment plant, and the Staten Island Ferry Bay Street Maintenance Building.

According to city officials, the five facilities selected for the program have characteristics needed for successful solar power generation, including large, flat new roofs; unobstructed access to the sun; and the structural integrity and appropriate electrical connections to accommodate a rooftop solar array.


Source:   Solar Industry




Centrosolar, Zep Solar Enter Licensing Agreement

Hamburg, Germany-based Centrosolar AG has signed a license agreement with Zep Solar Inc., based in San Rafael, Calif. Zep Solar provides mounting products for installing photovoltaic systems, enabling modules with a specialized Zep Groove frame to be installed quickly and easily, according to the companies.

Centrosolar will manufacture Zep-compatible modules in its own production plant in Wismar, Germany. Additionally, the companies have agreed to work in close cooperation for the development and marketing of Zep products in Europe.

As part of the agreement, the development teams of both companies have adapted Zep Solar's standard frame profile specifically for Centrosolar to make the best use of materials and to suit the requirements of European roof applications. As one of Zep Solar's European partners, Centrosolar will launch the Zep-compatible modules in Germany and other European countries.


Source:  Centrosolar




View:   Reducing installation costs and speeding up installation are important elements in reducing the overall cost of a solar project.




Friday, May 20, 2011

San Diego Pilot Program Opened The Doors For Calif. Solar Thermal Market

The California Solar Water Heating Pilot Program, which operated in the San Diego area during 2007-2009, helped drive a statewide program for rebates for solar thermal applications, according to a new report from the California Center for Sustainable Energy (CCSE). CCSE administered the pilot program for the California Public Utilities Commission (CPUC).

More than 340 residential and commercial solar water heating systems were installed in the San Diego region during the 30 months of the pilot program, with rebates totaling nearly $540,000. Funding for the rebates came from the CPUC and utility ratepayers statewide.

Based on the success of the pilot program, the CPUC established a statewide solar water heating rebate program under the California Solar Initiative (CSI) called CSI-Thermal in January 2010. The commission allocated $350.8 million, with the goal of installing 200,000 systems in the state by 2017. CCSE administers the CSI-Thermal program in the San Diego Gas & Electric service territory.

In addition to providing rebates of up to $1,500 for residential solar water heating systems and $75,000 for commercial installations, the pilot program was designed to gather data to evaluate the effect of incentives on the adoption and marketing of the technology, according to CCSE.

The report shows that single-family homes that installed solar water heating experienced an average monthly utility bill savings of $11.29 for displacing natural-gas water heating and a savings of $41.08 when displacing electric water heating.

The report also found that single-family participants appeared to be driven to install solar water heating slightly more by environmental concerns, whereas commercial/multifamily residential owners were driven mostly by financial interests. Increasing energy costs, concerns about greenhouse gas emissions and improved technology were found to be contributing factors to increasing interest in solar water heating.

One of the major conclusions was that solar water heating and solar photovoltaic generation, in combination, offers a faster path toward a true zero-energy home, CCSE adds.

"We believe that an opportunity exists to combine incentives and outreach for solar water heating and PV in ways that provide consumers with increased options for managing electricity and natural-gas consumption and increased greenhouse gas emission reductions," says Jordan DiGiorgio, CCSE program manager for solar water heating.

The report was prepared for CCSE by Itron Inc. of Davis, Calif. A copy of the report and additional information about the current CSI-Thermal program and rebates can be obtained online.

Photo: Solar thermal installation at Peninsula Station, a multifamily property in San Mateo, Calif. Credit: SunWater Solar




Toronto Schools Installing Solar on 450 Rooftops

Toronto District School Board (TDSB) trustees have approved an agreement with solar power producer Amp Solar Ltd. that will see solar panels installed on 450 school rooftops while offsetting the costs of major roof maintenance.

When fully installed, the panels will generate between 58 MW and 66 MW of electricity each year, according to the TDSB. The power will be sold into the distribution grid for use by Ontario energy consumers, including TDSB schools.

The final number of solar array installations will be determined through the Government of Ontario's feed-in-tariff process, with application approvals expected next month.



Source:   TDSB



Thursday, May 19, 2011

California Prisons Adding 23 MW Of Solar Power With SunEdison



The California Department of Corrections and Rehabilitation (CDCR) has entered into five agreements that will add nearly 23 MW of on-site solar-generated power at the Chuckawalla Valley State Prison and Ironwood State Prison in Blythe, Calif.; Correctional Institution in Tehachapi, Calif.; North Kern State Prison in Delano, Calif.; and California State Prison, Los Angeles County, in Lancaster, Calif.

The expansion is anticipated to save taxpayers more than $55 million over the life of the contracts, according to CDCR. Construction and maintenance will be arranged by SunEdison, using no state general-fund tax dollars. The costs of the projects are further reduced by incentive dollars from California's investor-owned utilities, through the California Solar Initiative program administered by the California Public Utilities Commission.  

The new projects will add more than 83,000 solar panels on the grounds of the five prisons, with construction expected to begin in 2012. 


Source:  CDCR