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• Adding eSolar and Wind to Natural Power Plant Design in Turkey

• 
  Dr. Nilgün Birgören    Premium Member   Group moderator

  The company name is only visible to registered members.

  Adding eSolar and Wind to Natural Power Plant Design in Turkey

  
  General Electric wants to be a big renewable energy player but doesn't want to give up its bread-and-butter business of building fossil fuel power plants. So what does the company do? They are now offering hybrid power plants that make use of natural gas and solar -- and they may add wind to really mix things up.
  
  That’s the idea behind the first hybrid project announced by GE and its customer, MetCap Energy Investments, on Tuesday to build a 530 MW power plant in Turkey. The project will include 50 MW of concentrating solar thermal energy production and 22 MW of wind.
  
  The solar thermal energy portion will use technology from eSolar, which is getting an undisclosed equity investment from GE. The investment is a boost for eSolar, which shifted from developing power plants to licensing its technology in the past few years. The company received an investment from NRG Energy and was supposed to see its technology deployed in at least two 92-MW projects in the United States. But NRG decided to ditch that idea and use solar panels instead. It even cut one project to 20 MW (which is being built by First Solar in New Mexico).
  
  eSolar CEO, John Van Scoter, called the GE deal “transformational for eSolar and the whole energy industry.”
  
  “It’s such a right match for GE’s roadmap because of the modular nature of our technology. We really have something unique that we architect.”
  
  eSolar’s technology uses flat mirrors to concentrate sunlight that heats up water in a tank atop a tower for steam production. The steam then runs a turbine and generator to produce electricity. The company designs the configuration iso that each tower has a production capacity of 4 megawatts, Van Scoter said. The sunlight-to-electricity conversion efficiency of eSolar's technology is 11-12 percent, he added.
  
  GE is licensing eSolar’s technology in order to add it to its offering of combined cycle natural gas power plant equipment. GE said it also wants to build stand-alone power plants. The company has the worldwide exclusive license to use it alongside its combined cycled power plants in perpetuity; it also gets an exclusive license to build stand-alone solar thermal power plants for a period of time, said Van Scoter, who declined to provide more details. The licensing agreement applies to anywhere in the world except India and China, where eSolar has previously licensed its technology to other developers.
  
  It’s no secret that concentrating solar thermal (CSP) technology can compliment a combined cycle natural gas power plant, which uses a steam turbine in addition to a gas turbine. The waste heat from a gas turbine is used to generate steam to produce more electricity. A stand-alone CSP plant needs a steam turbine for electricity production, but a CSP plant can’t produce a steady stream of power day and night like a natural gas power plant. Adding solar thermal to a natural gas power plant cuts the use of natural gas, particularly when natural gas price is high.
  
  FPL built a 75-MW solar thermal energy field next to an existing natural gas power plant in Florida last year. French power plant equipment company, Areva, which bought CPS company Ausra in 2010, has been offering hybrid solar thermal-natural gas or solar thermal-coal fire plant designs and equipment.
  
  GE’s entry will promote the hybrid designs, which are attractive not just for their fuel savings feature but also for their promise to lower greenhouse gas emissions from a fossil fuel power plant. This is also good news for CSP companies that are facing tough competition from developers of solar panel technologies. Solar panel pricing has dropped more than 50 percent in the past few years, and solar panels don’t need strong, direct sunlight does to work, unlike CSP equipment.
  
  For the MetCap project, GE will pair solar with a new natural gas plant design it unveiled two weeks ago. GE designed the plant to address the challenge of integrating solar and wind energy into the grid. A grid needs to have a steady supply of power to run smoothly. But solar and wind energy production only happens when the sun shines and the wind blows. One way to manage power supply is to store energy and release it when needed.
  
  The natural gas plant design, called FlexEfficiency 50, makes use of jet engine technology so that the power plant produces electricity efficiently and is able to ramp up production quickly, at 50 MW per minute. In the past, combined cycle power plants typically couldn’t provide this type of ramp up rate, which can be achieved with simple-cycle combustion turbines (without using the steam turbine). FlexEfficiency 50 can convert 61 percent of the natural gas energy into electricity.
  
  "It's critical for natural gas to pair well with renewable sources," said Paul Browning, CEO of thermal products at GE Energy.
  
  By adding solar and wind, GE expects the hybrid plant to achieve 69 percent efficiency. The efficiency is a bit lower than what the plant could achieve if it were located at sea level and under other ideal conditions. The MetCap plant will be located at 1,100-meter elevation, and that reduces the gas turbine efficiency, Browning said. The minimum efficiency provided by the site is 45 percent, said Celal Metin, chairman of MetCap.
  
  Under ideal conditions, the hybrid plant can get over 70 percent efficiency -- 61 percent percent efficiency from the natural gas plant, 7 percent from solar and 3 percent from wind, Browning said.
  
  MetCap expects to start construction later this year and complete the project in 2015. The project will cost 400 million euros, Metin said.
  
  http://www.renewableenergyworld.com/rea/news/article/2011/06...
  
  • 14 Jun 2011, 09:22 am
  Dr. Nilgün Birgören wrote: > General Electric wants to be a big renewable energy player but > doesn't want to give up its bread-and-butter business of building > fossil fuel power plants. So what does the company do? They are now > offering hybrid power plants that make use of natural gas and solar > -- and they may add wind to really mix things up. > > That’s the idea behind the first hybrid project announced by GE and > its customer, MetCap Energy Investments, on Tuesday to build a 530 MW > power plant in Turkey. The project will include 50 MW of > concentrating solar thermal energy production and 22 MW of wind. > > The solar thermal energy portion will use technology from eSolar, > which is getting an undisclosed equity investment from GE. The > investment is a boost for eSolar, which shifted from developing power > plants to licensing its technology in the past few years. The company > received an investment from NRG Energy and was supposed to see its > technology deployed in at least two 92-MW projects in the United > States. But NRG decided to ditch that idea and use solar panels > instead. It even cut one project to 20 MW (which is being built by > First Solar in New Mexico). > > eSolar CEO, John Van Scoter, called the GE deal “transformational for > eSolar and the whole energy industry.” > > “It’s such a right match for GE’s roadmap because of the modular > nature of our technology. We really have something unique that we > architect.” > > eSolar’s technology uses flat mirrors to concentrate sunlight that > heats up water in a tank atop a tower for steam production. The steam > then runs a turbine and generator to produce electricity. The company > designs the configuration iso that each tower has a production > capacity of 4 megawatts, Van Scoter said. The sunlight-to-electricity > conversion efficiency of eSolar's technology is 11-12 percent, he > added. > > GE is licensing eSolar’s technology in order to add it to its > offering of combined cycle natural gas power plant equipment. GE said > it also wants to build stand-alone power plants. The company has the > worldwide exclusive license to use it alongside its combined cycled > power plants in perpetuity; it also gets an exclusive license to > build stand-alone solar thermal power plants for a period of time, > said Van Scoter, who declined to provide more details. The licensing > agreement applies to anywhere in the world except India and China, > where eSolar has previously licensed its technology to other > developers. > > It’s no secret that concentrating solar thermal (CSP) technology can > compliment a combined cycle natural gas power plant, which uses a > steam turbine in addition to a gas turbine. The waste heat from a gas > turbine is used to generate steam to produce more electricity. A > stand-alone CSP plant needs a steam turbine for electricity > production, but a CSP plant can’t produce a steady stream of power > day and night like a natural gas power plant. Adding solar thermal to > a natural gas power plant cuts the use of natural gas, particularly > when natural gas price is high. > > FPL built a 75-MW solar thermal energy field next to an existing > natural gas power plant in Florida last year. French power plant > equipment company, Areva, which bought CPS company Ausra in 2010, has > been offering hybrid solar thermal-natural gas or solar thermal-coal > fire plant designs and equipment. > > GE’s entry will promote the hybrid designs, which are attractive not > just for their fuel savings feature but also for their promise to > lower greenhouse gas emissions from a fossil fuel power plant. This > is also good news for CSP companies that are facing tough competition > from developers of solar panel technologies. Solar panel pricing has > dropped more than 50 percent in the past few years, and solar panels > don’t need strong, direct sunlight does to work, unlike CSP > equipment. > > For the MetCap project, GE will pair solar with a new natural gas > plant design it unveiled two weeks ago. GE designed the plant to > address the challenge of integrating solar and wind energy into the > grid. A grid needs to have a steady supply of power to run smoothly. > But solar and wind energy production only happens when the sun shines > and the wind blows. One way to manage power supply is to store energy > and release it when needed. > > The natural gas plant design, called FlexEfficiency 50, makes use of > jet engine technology so that the power plant produces electricity > efficiently and is able to ramp up production quickly, at 50 MW per > minute. In the past, combined cycle power plants typically couldn’t > provide this type of ramp up rate, which can be achieved with > simple-cycle combustion turbines (without using the steam turbine). > FlexEfficiency 50 can convert 61 percent of the natural gas energy > into electricity. > > "It's critical for natural gas to pair well with renewable sources," > said Paul Browning, CEO of thermal products at GE Energy. > > By adding solar and wind, GE expects the hybrid plant to achieve 69 > percent efficiency. The efficiency is a bit lower than what the plant > could achieve if it were located at sea level and under other ideal > conditions. The MetCap plant will be located at 1,100-meter > elevation, and that reduces the gas turbine efficiency, Browning > said. The minimum efficiency provided by the site is 45 percent, said > Celal Metin, chairman of MetCap. > > Under ideal conditions, the hybrid plant can get over 70 percent > efficiency -- 61 percent percent efficiency from the natural gas > plant, 7 percent from solar and 3 percent from wind, Browning said. > > MetCap expects to start construction later this year and complete the > project in 2015. The project will cost 400 million euros, Metin said. > > > http://www.renewableenergyworld.com/rea/news/article/2011/06/ge-adds-esolar-and-wind-to-natural-power-plant-design-in-turkey
• 
  Dr. Nilgün Birgören    Premium Member   Group moderator

  The company name is only visible to registered members.

  CSP Boom in MENA Region

  The Middle East and North Africa region (MENA) could be ripe for developing its massive potential in concentrating solar power (CSP), finds a recent study for the World Bank by the Fraunhofer Institute for Systems and Innovation Research (ISI) and the Fraunhofer Institute for Solar Energy Systems (ISE).
  
  Solar thermal electricity generation is on a clearly positive trend, with new CSP installations having doubled since 2007, finds 'MENA Assessment of Local Manufacturing Potential for Concentrated Solar Power (CSP) Projects,' a study conducted in co-operation with Ernst & Young.
  
  By mid-2010, over 800 MW of CSP plants were in operation. Although the market is dominated by the US and Spain, a boom fuelled by national incentives is now seeing projects appear in Australia and in Asia and MENA.
  
  The latter offers the greatest global application potential, found the study. In addition, European plant manufacturers and technology providers are keen and ready to get involved in the region. But the report found that success and acceptance of solar power plant construction in the five countries it examined — Egypt, Algeria, Jordan, Morocco and Tunisia — depend heavily on the integration and participation of local industry.
  
  The background to the study is the World Bank's Clean Technology Fund (CTF), which is supporting the development of solar thermal power plants in MENA countries. An investment programme is intended to help finance new power plants in the region and develop a local CSP industry as well as attract additional investment.
  
  The study results indicate that the local value added for CSP plants in the MENA region could average 60%. Christoph Kost, head of the study at Fraunhofer ISE, estimates that the effect from local value added in the region could total US$14.3 billion if sustainable, long-term demand is created, and that 60,000 to 80,000 jobs could be created in the MENA region by 2025.
  
  Countries stand to profit from developing production and infrastructure if they exploit regional advantages and dismantle market barriers. But in the short and medium term CSP projects in MENA will require a portfolio of support schemes, including climate finance and concessional loans, revenues from solar electricity exports to Europe, and national incentives such as long-term power purchase agreements, feed-in tariffs, or tax rebates.
  
  In the longer term, generation costs need to fall dramatically. Investment costs, and therefore manufacturing costs for main components and systems, need to be reduced through technical innovation, economies of scale, and the experience curve effect. But MENA has technical and industrial capabilities that are likely to form a good basis for CSP-related activities, found the study.
  
  Local manufacturing of CSP in MENA countries could also benefit from a massive scale-up of concessional climate financing envisaged under the United Nations Framework Convention on Climate Change (UNFCCC). In addition, CSP is central to the high-level political agreement between MENA and the EU to make solar energy trade a fundamental pillar of economic integration between the regions. CSP located in the MENA region could be key to realising the EU's GHG emissions reduction and energy security objectives.
  
  National strategies for industrial development and energy policy should involve: clear targets for the market diffusion of CSP; substantial RD efforts; the creation of strategy funds for industrial development of CSP industry sectors; and stronger regional integration of policies. More technology parks/clusters and regional innovation platforms are also needed, especially to help small and medium-sized firms overcome barriers and gain access to the latest technological advances, the report says.
  
  Business models should build on the comparative advantages of some industrial sectors in MENA countries and also involve international co-operation agreements, such as joint ventures and licensing. A crucial first step will be investment in new highly automated production of mounting structures and white glass as well as in adapting techniques for coating and bending mirrors.
  
  Market actors will need both access to information and certainty about the market's development. Feasibility studies on production line upgrades could be key to this. A regional trade association might be essential. Starting local manufacturing will also involve comprehensive education and training programmes. Finally, universities should be encouraged to teach CSP-technology courses, particularly for engineers and other technical graduates, the document concludes.
  
  Regards,
  Nilgun Birgoren
  
  • 14 Jun 2011, 09:25 am
  Dr. Nilgün Birgören wrote: > The Middle East and North Africa region (MENA) could be ripe for > developing its massive potential in concentrating solar power (CSP), > finds a recent study for the World Bank by the Fraunhofer Institute > for Systems and Innovation Research (ISI) and the Fraunhofer > Institute for Solar Energy Systems (ISE). > > Solar thermal electricity generation is on a clearly positive trend, > with new CSP installations having doubled since 2007, finds 'MENA > Assessment of Local Manufacturing Potential for Concentrated Solar > Power (CSP) Projects,' a study conducted in co-operation with Ernst & > Young. > > By mid-2010, over 800 MW of CSP plants were in operation. Although > the market is dominated by the US and Spain, a boom fuelled by > national incentives is now seeing projects appear in Australia and in > Asia and MENA. > > The latter offers the greatest global application potential, found > the study. In addition, European plant manufacturers and technology > providers are keen and ready to get involved in the region. But the > report found that success and acceptance of solar power plant > construction in the five countries it examined — Egypt, Algeria, > Jordan, Morocco and Tunisia — depend heavily on the integration and > participation of local industry. > > The background to the study is the World Bank's Clean Technology Fund > (CTF), which is supporting the development of solar thermal power > plants in MENA countries. An investment programme is intended to help > finance new power plants in the region and develop a local CSP > industry as well as attract additional investment. > > The study results indicate that the local value added for CSP plants > in the MENA region could average 60%. Christoph Kost, head of the > study at Fraunhofer ISE, estimates that the effect from local value > added in the region could total US$14.3 billion if sustainable, > long-term demand is created, and that 60,000 to 80,000 jobs could be > created in the MENA region by 2025. > > Countries stand to profit from developing production and > infrastructure if they exploit regional advantages and dismantle > market barriers. But in the short and medium term CSP projects in > MENA will require a portfolio of support schemes, including climate > finance and concessional loans, revenues from solar electricity > exports to Europe, and national incentives such as long-term power > purchase agreements, feed-in tariffs, or tax rebates. > > In the longer term, generation costs need to fall dramatically. > Investment costs, and therefore manufacturing costs for main > components and systems, need to be reduced through technical > innovation, economies of scale, and the experience curve effect. But > MENA has technical and industrial capabilities that are likely to > form a good basis for CSP-related activities, found the study. > > Local manufacturing of CSP in MENA countries could also benefit from > a massive scale-up of concessional climate financing envisaged under > the United Nations Framework Convention on Climate Change (UNFCCC). > In addition, CSP is central to the high-level political agreement > between MENA and the EU to make solar energy trade a fundamental > pillar of economic integration between the regions. CSP located in > the MENA region could be key to realising the EU's GHG emissions > reduction and energy security objectives. > > National strategies for industrial development and energy policy > should involve: clear targets for the market diffusion of CSP; > substantial RD efforts; the creation of strategy funds for industrial > development of CSP industry sectors; and stronger regional > integration of policies. More technology parks/clusters and regional > innovation platforms are also needed, especially to help small and > medium-sized firms overcome barriers and gain access to the latest > technological advances, the report says. > > Business models should build on the comparative advantages of some > industrial sectors in MENA countries and also involve international > co-operation agreements, such as joint ventures and licensing. A > crucial first step will be investment in new highly automated > production of mounting structures and white glass as well as in > adapting techniques for coating and bending mirrors. > > Market actors will need both access to information and certainty > about the market's development. Feasibility studies on production > line upgrades could be key to this. A regional trade association > might be essential. Starting local manufacturing will also involve > comprehensive education and training programmes. Finally, > universities should be encouraged to teach CSP-technology courses, > particularly for engineers and other technical graduates, the > document concludes. > > Regards, > Nilgun Birgoren