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A Bright Future for Solar Power in the Middle East

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  • Geography and demographic challenges have made parts of the Middle East and North Africa a prime location for solar power installations.
  • While solar will not supplant the role of hydrocarbons, it will enable countries such as Morocco and Jordan to improve energy security and potentially become electricity exporters.
  • Countries such as Saudi Arabia and the United Arab Emirates will seek to maintain their position as energy exporters, in part by adopting strategies likely to include renewables development.

Deserts are seemingly obvious places to locate solar technology. In fact, the swath of desert stretching from the Atlantic Ocean, across North Africa and the Arabian Peninsula, to the Persian Gulf has vast solar potential. But until recently it has not been economically feasible, or even necessary, to develop the renewable resource. In many areas, geographic constraints such as rough terrain have made solar projects impractical.

Only now has a combination of demographic pressure, low oil prices and technological readiness primed Middle Eastern and North African states for more investment in solar power. For countries such as Jordan and Morocco, renewable energy may offer a path toward greater energy independence. Others, such as Saudi Arabia and the United Arab Emirates, are interested in exporting renewable energy technology and financing solar projects abroad.

The steady price decline of solar power generation infrastructure, especially photovoltaic cells, is making the renewable option more viable for North African and Middle Eastern states, a region where the sun shines in abundance. Not only is the technology becoming more affordable, but operational costs after construction are also minimal when compared with hydrocarbon-based generation. As a result, several countries in the Middle East and North Africa are focusing on solar power as a means to satisfy rising electricity demand, make cuts to unsustainable government subsidy programs and reduce dependence on energy imports.

north-africa-middle-east-sunbelt.png

Solar will not replace hydrocarbons as the region's primary energy source, but where markets can meet national goals and strategies, it has the potential to help some countries diversify their power sources. Given the region's growing energy demand, interest and investment in solar generation there will increase in the near and medium term.

Jordan and Morocco: Energy Importers


Jordan, a relatively stable kingdom in a largely tumultuous region, is vulnerable to demographic challenges. The nation imports more than 95 percent of its energy at a cost of roughly 16 percent of its gross domestic product. Its energy dependence makes it somewhat vulnerable: In 2011 and 2012, disruptions in natural gas supplies from Egypt caused Jordan to deplete its energy reserves entirely. The problem arose again in 2013, when oil imports from Iraq were interrupted. Uncertain energy supplies have the potential to stoke unrest in the country, where energy costs are heavily subsidized by the monarchy. After all, an erratic domestic electricity supply has been among the main aggravators of social upheaval in nearby Lebanon, Iraq and Egypt. Jordan subsequently made efforts to diversify its sources of electricity by increasing solar capacity, and in recent years it added wind and nuclear generation. If Jordan is to meet its goal of relying on renewables for a full 20 percent of its generation capacity by 2018, solar will play a major role.

Numerous projects, large and small, are underway in Jordan, from installing solar panels on the rooftops of homes to building large solar parks with 200-megawatt capacities. Jordan has made the bidding process for renewable energy projects relatively easy, which has attracted companies from around the world. Jordan will be unable to reach its lofty goals on its own; public-private partnerships will be crucial to the growth of the renewable energy sector.

Much like Jordan, Morocco imports most of its energy — about 90 percent. The similarly stable nation is also looking to renewables, especially solar power, to increase energy security and lower energy costs. But Morocco is taking the idea a step further by building what will be the world's largest power plant using concentrated solar technology, which employs mirrors or lenses to focus sunlight that generates heat to power turbines. The first phase of the project, the Noor Solar Complex near the city of Ouarzazate, opened earlier this year. Morocco has set a lofty goal: to have renewables account for half its electricity production by 2025 (solar would satisfy about a third of the demand). The nation even aims to become an electricity exporter. Of course, the scale of its projects requires large tenders, requiring international investment and limiting the participation of domestic companies.

Morocco's burgeoning solar sector still faces some challenges, not least of which is the need for a reliable storage method, all the more important since sunlight is a naturally fluctuating power source. Still, with its geographic advantages and relative social stability, Morocco appears to be in prime position to exploit its solar power potential.

Egypt: Growing Demand


Egypt's political, security and financial institutions are not as stable as those of Morocco or Jordan, and in Egypt the threat of social unrest is more potent. But industry publications still tout the country as a potential hot spot for renewable energy investment.

Egypt's massive population creates an enormous energy demand, which may strain the government's budget but also opens up opportunities to invest in technologies to meet its growing need.


Egypt's energy woes are not new. Production has steadily declined because of a lack of investment in domestic oil and natural gas operations. Meanwhile, domestic energy demand has risen. But President Abdel Fattah al-Sisi has implemented reforms that have attracted renewed investment to the natural gas sector, with projects such as Eni's Zohr natural gas field being fast-tracked.

Renewable energy will not necessarily meet all of the public's most urgent needs. Cooking fuel, for instance, has sometimes been in short supply, and solar power will not directly resolve that problem. Still, preventing summer brownouts (now all too common in Egypt) is a priority for the government, which has lost much of its popular support. Improved natural gas production can help provide a more consistent electricity supply, but with demand expected to climb, there is room for additional forms of power generation. Recent agreements signed with Japan and South Korea to develop solar power and associated projects indicate that Egypt is looking beyond traditional relationships to further the renewables energy sector, though both European and regional players such as Saudi Arabia and the United Arab Emirates are still active investors.

Saudi Arabia, UAE and Algeria: Exporters Remain Exporters


Saudi Arabia relies on oil for electricity production, and it faces rising domestic demand for electricity at a time when low oil prices have put significant financial strain on the government. Its domestic fuel consumption is following an unsustainable trend. Using over 3 million barrels of oil per day domestically, Saudi Arabia is already the largest global consumer of petroleum for power production. About a third of its daily oil consumption is used to fuel power plants. Without additional sources of generation to satisfy climbing electricity demand, the share of oil consumed by electricity generation would climb.

Although Saudi Arabia is gradually implementing subsidy reforms designed to reduce domestic energy demand, it still will develop energy alternatives, which is where solar power could come into play. Under current goals, renewables would account for 8 percent of electricity production by 2020 and 15 percent by 2030, with solar power accounting for the majority of that increase. In the past, however, Saudi Arabia has lengthened the timelines for such targets.

Yet Riyadh has made significant strides in exporting solar technology. Saudi company ACWA Power is involved in multiple projects in the region (Morocco and Jordan) and farther away (South Africa and Turkey). Saudi Arabian Oil Co., the national oil company, has even expressed interest in developing solar export capability. With plans to add solar technology production facilities, Riyadh could maintain its role as a regional solar exporter, especially as its domestic solar power sector continues to develop. ACWA Power has gained a regional reputation as having sufficient economies of scale to underbid other major solar power firms, mostly Western or East Asian companies. This helped ACWA Power win large bids such as the first phase of Morocco's Noor plant and the Mohammed bin Rashid solar park in the United Arab Emirates.

The United Arab Emirates, meanwhile, has positioned itself as a renewable energy financier and development hub. It is the home of the International Renewable Energy Agency, and it hosts important conferences focused on both renewable and nonrenewable energy. Furthermore, it has used its ample hydrocarbon largesse to develop unique large- and small-scale renewable projects in ways that less resource-rich countries such as Morocco, Jordan and Egypt cannot match.

The United Arab Emirates has established itself as a regional leader in solar power in part because of its greater ability to adopt the technology (both domestically and through partnerships with other countries) and to fund projects throughout the world.


Masdar, the country's renewable energy arm, is connected with the Mubadala Development Co., one of the country's smaller sovereign wealth funds. Masdar is involved in projects throughout the Middle East, Africa, South America and Europe and on islands in the Pacific.

Algeria, a leading natural gas producer, has ambitious plans to follow a similar path with solar energy. Renewable power installations totaling 22 gigawatts of capacity — 13 gigawatts of that solar — are proposed to go online by 2030. That is enough power to meet nearly a quarter of domestic needs while still reserving a significant portion for exports. But exporting renewable power will require substantial research and investment into solving the problem of insufficient energy storage, which is a barrier to incorporating large amounts of variable renewable power worldwide. Algeria will require foreign investment and cooperation to meet its grand plans. While Algeria is more stable than some of its neighbors, such as Libya, its government is in a slow leadership transition, and the risk of instability caused by protests relating to development and distribution of energy resources is high. Nonetheless, the country has made strides toward attracting the necessary investment to build out its solar capacity. With over 250 megawatts of capacity installed in 2015 and work occurring at additional sites in 2016, Algeria is moving toward its target of 15 percent of electricity being generated by solar by 2020.

Keeping Things in Perspective


Solar power's role in the region is poised to grow. The technology is nearing grid parity, the point at which it costs the same or less than the traditional technologies that feed the electrical grid. And solar's cost will likely come down even more. Until energy storage technology improves, however, incorporation of renewables into electricity grids will be somewhat constrained, especially for the full use of larger planned projects.

Although it will stay subordinate to hydrocarbons, solar is primed to become a more prominent part of the energy mix in the Middle East and North Africa. Its development offers investment opportunities that, while limited to well-capitalized entities, could eventually shift a portion of energy dependence in the region. In the shorter term, solar projects may actually create dependence on other countries for some nations, but they will also nurture the nascent renewable energy sectors in which domestic companies are eager to invest. In time, solar projects could help states diversify their sources of electrical power and become more energy independent.

https://www.stratfor.com/sites/defa...-africa-middle-east-sunbelt.png?itok=HNveugqC

@Gomig-21 @DavidSling @MICA @Amun @Luffy 500 @KediKesenFare @Frogman @Malik Alashter @Malik Abdullah @Falcon29 @Mootaz-khelifi @Ceylal @HannibalBarca @mekawy @ezerdi2 @Hell NO @AmirPatriot @fachfouch
 
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Has it been completed yet my Israeli friend?
ASHALIM

BrightSource Energy is partnering with General Electric (GE) and NOY Infrastructure & Energy Investment Fund to build the 121 MW Ashalim Solar Thermal Power Station in Israel’s Negev desert. GE is responsible for the engineering, the procurement and the construction (EPC) of the solar power station, with BrightSource providing the advanced solar field technology.

The BrightSource-GE-NOY Megalim project is one of three projects selected under Israel’s Ashalim 250 megawatt total solar tender. It will be located on Plot B and feature BrightSource’s concentrating solar power (CSP) tower technology. More than 50,000 computer-controlled heliostats, or mirrors, that track the sun on two axes and reflect sunlight onto a boiler on top of a 250-meter tower. Construction is underway and the facility is scheduled to be completed in late 2017. When operational, the Ashalim Solar Thermal Power Station will help Israel achieve its goal of having 10 percent of its electricity production from renewable energy sources by 2020.

PROJECT OVERVIEW

A 121 megawatt solar complex using mirrors to focus the power of the sun on solar receivers atop power towers.

  • The electricity generated at Ashalim will be enough to supply 120,000 homes with clean energy
  • The complex will avoid 110,000 tons of CO2 emissions each year over the course of its life
  • This project will create up to 1,000 jobs at peak construction

Click HERE for Ashalim images
 
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ASHALIM

BrightSource Energy is partnering with General Electric (GE) and NOY Infrastructure & Energy Investment Fund to build the 121 MW Ashalim Solar Thermal Power Station in Israel’s Negev desert. GE is responsible for the engineering, the procurement and the construction (EPC) of the solar power station, with BrightSource providing the advanced solar field technology.

The BrightSource-GE-NOY Megalim project is one of three projects selected under Israel’s Ashalim 250 megawatt total solar tender. It will be located on Plot B and feature BrightSource’s concentrating solar power (CSP) tower technology. More than 50,000 computer-controlled heliostats, or mirrors, that track the sun on two axes and reflect sunlight onto a boiler on top of a 250-meter tower. Construction is underway and the facility is scheduled to be completed in late 2017. When operational, the Ashalim Solar Thermal Power Station will help Israel achieve its goal of having 10 percent of its electricity production from renewable energy sources by 2020.

PROJECT OVERVIEW

A 121 megawatt solar complex using mirrors to focus the power of the sun on solar receivers atop power towers.

  • The electricity generated at Ashalim will be enough to supply 120,000 homes with clean energy
  • The complex will avoid 110,000 tons of CO2 emissions each year over the course of its life
  • This project will create up to 1,000 jobs at peak construction

Click HERE for Ashalim images

Very interesting, thanks for the Info. We should be taking on projects like this, such a shame we are enemies because you hate the Palestinians, we could have done so much if we worked together.
 
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Very interesting, thanks for the Info. We should be taking on projects like this, such a shame we are enemies, we could have done so much if we worked together.
I'll talk for myself when I say that I'm not an enemy of Egyptians or anyone for that matter, the rest is up to u.
Either way, I don't want to turn this thread into political thread, since many of those already exist in this forum, let's stick to the subject at hand.
 
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At a cost of $700 million (granted that's peanuts) and the mirrors scattered for an area equivalent to 400 football pitches (WTH is a football pitch? Did she mean a football field?), that's a lot of square footage and for what, 1% of Israel's needs? Seems like a very low return for investment in land space which you're very short of. Even with a 2nd pair of towers and an eventual 10% rise in solar energy, seems like a lot of effort & land given up for a small return. Still a very neat system.


Looking at that map, it's easy to see why Ethiopia, Somalia, Sudan and Chad have suffered great droughts. The desert is unforgiving look at all that purple in just those 4 countries.

Renewable energy sources will only get better and keep lowering the cost of oil, which is GREAT! Geothermal energy should be more abundantly used in the Sahara desert since the earth's core and surface are both extremely hot. It might work better than where a lot of it is being currently sourced which is in colder climates. But speaking of Ethiopia, they're also investing in geothermal energy for electricity generation, but it's not producing enough so they need the dam. At least that is a "old-school" form of renewable source.
 
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At a cost of $700 million (granted that's peanuts) and the mirrors scattered for an area equivalent to 400 football pitches (WTH is a football pitch? Did she mean a football field?), that's a lot of square footage and for what, 1% of Israel's needs? Seems like a very low return for investment in land space which you're very short of. Even with a 2nd pair of towers and an eventual 10% rise in solar energy, seems like a lot of effort & land given up for a small return. Still a very neat system.



Looking at that map, it's easy to see why Ethiopia, Somalia, Sudan and Chad have suffered great droughts. The desert is unforgiving look at all that purple in just those 4 countries.

Renewable energy sources will only get better and keep lowering the cost of oil, which is GREAT! Geothermal energy should be more abundantly used in the Sahara desert since the earth's core and surface are both extremely hot. It might work better than where a lot of it is being currently sourced which is in colder climates. But speaking of Ethiopia, they're also investing in geothermal energy for electricity generation, but it's not producing enough so they need the dam. At least that is a "old-school" form of renewable source.

Geothermal energy in the desert? Don't you need water for using geothermal energy? However, you're wrong. There is probably no place on this planet which is more suitable for solar energy than North Africa/Arab world. Isn't this obvious?
 
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Geothermal energy in the desert? Don't you need water for using geothermal energy? However, you're wrong. There is probably no place on this planet which is more suitable for solar energy than North Africa/Arab world. Isn't this obvious?

How Geothermal Energy Works
http://www.ucsusa.org/clean_energy/our-energy-choices/renewable-energy/how-geothermal-energy-works.html#.WR1J0WVllmA


"Seismically active hotspots are not the only places where geothermal energy can be found. There is a steady supply of milder heat—useful for direct heating purposes—at depths of anywhere from 10 to a few hundred feet below the surface virtually in any location on Earth. Even the ground below your own backyard or local school has enough heat to control the climate in your home or other buildings in the community. In addition, there is a vast amount of heat energy available from dry rock formations very deep below the surface (4–10 km). Using the emerging technology known as Enhanced Geothermal Systems (EGS), we may be able to capture this heat for electricity production on a much larger scale than conventional technologies currently allow. While still primarily in the development phase, the first demonstration EGS projects provided electricity to grids in the United States and Australia in 2013."



Geothermal energy potential of eastern desert region, Egypt
http://link.springer.com/article/10.1007/s12665-016-5534-4

Egypt´s electricity and Petroleum Ministers Mohamed Shaker and Tarek el-Mulla signed an MoU to foster the use of geothermal in the country.

http://www.thinkgeoenergy.com/ministers-in-egypt-sign-mou-to-develop-geothermal/

You are right though that North Africa and the Middle East is perfect for Solar powered energy.


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Dubai’s Sustainable City gets power from the sun
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Dubai, United Arab Emirates, 02 May 2017. ABB string inverters deliver power for the residents of Dubai’s first all-electric city.



Dubai’s first city to be powered completely by solar energy relies on ABB string inverters to harness the power of the sun for residents. Inverters convert the direct current (DC) output from the panels in to the alternating current (AC) needed in homes.

ABB has supplied 400 string inverters to harvest solar energy for 400 villas in the Sustainable City, the region’s first fully integrated sustainable community.

“ABB is excited to be part of Dubai’s first wholly sustainable city and help reliably harness the power of the sun. We share Dubai’s vision of building a world-class smart city and we firmly believe for this to happen, it also needs to be energy-efficient. We are sure that Dubai’s excellent initiatives coupled with innovative technologies from companies such as ABB will make this ambition a reality,” said Mostafa AlGuezeri, Managing Director, ABB in the Middle East.

The inverters were installed by City Solar, one of the leading companies specializing in solar photovoltaic (PV) power generation in the United Arab Emirates and Dubai. “We are one of the pioneering engineering, procurement and construction (EPC) companies that supply grid connected PV solutions to this growing regional market," explains Anwar Abdel of City Solar. “This means we are responsible for procuring all equipment and materials necessary for the project and verify that it’s functioning perfectly.”

Conceived and built by Dubai based Diamond Developers, the Sustainable City will be home to some 2,000 people in an area of nearly 500,000 square meters. It will eventually generate 10 megawatt-peak (MWp) of power from solar panels on private and public buildings within the city.

As well as solar powered homes, the plan for the Sustainable City features solar powered chargers for electric cars, a hotel powered 100 percent by solar power and the Diamond Innovation Center, the first educational institute to use net zero energy over its lifetime.

The Sustainable City provides a complete suite of amenities and environmental features. With the initial phase completed in December 2016, the city comprises five residential clusters, a buffer zone, a green ‘spine’, an equestrian club and a multipurpose development. The second stage, to be completed in 2018, will include the hotel, innovation center, school and country club.

Faris Saeed, engineer and CEO at Diamond Developers, says: “The Sustainable City is based on innovation, energy efficiency and a commitment to combat the effects of climate change. With its own commitment to innovative technology to make efficient use of renewable energy, ABB was the ideal partner to help us realize our vision of building the first net zero energy city in Dubai.”

Working closely with the developers to design the solar power system for the villas, ABB supplied a string inverter demonstration unit at the start of the project to prove it could cope with the high outdoor temperatures experienced in Dubai. Models supplied under the contract were the PVI 5000, PVI 12.5, TRIO 7.5 and TRIO 8.5.

As well as supplying the inverters, ABB provides training, ensuring the client’s own engineers can install and maintain the inverters. ABB is providing replacements in advance, delivering new inverters before collecting any faulty units.

ABB’s global sales and marketing manager, Alireza Mehrtash, says: “ABB’s innovation and wide ranging experience in solar power projects was clearly a major attraction to Diamond Developers when choosing a partner for the Sustainable City. We are glad to be involved with such a pioneering project that demonstrates how solar power solutions contribute to sustainably energy.

“The Sustainable City project is a benchmark and inspiration for other similar projects in the region.”
As well as the inverters for residential use in the Sustainable City, ABB also supplied inverters for a 1.4 megawatt (MW) parking lot solar roof project. This will charge the electric cars, which are the only powered vehicles allowed within the city limits.

ABB has one of the broadest portfolios of solar inverters in the industry, ranging from small single-phase and three-phase string inverters up to megawatt-sized central inverters. This extensive range of solar inverters is suitable for the smallest residential photovoltaic (PV) systems through to multi-megawatt PV power plants. ABB solutions are complemented by monitoring systems to ensure optimum performance of the PV installations, backed up by a global service network.

http://buyersguide.renewableenergyw...city-gets-power-from-the-sun-through-abb.html

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Qatar gets serious about solar

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With a target of producing 20% of its electricity using solar energy by 2030, a series of public and private investments are driving new developments in Qatar's solar energy sector.

21 April 2017
Production begins at major solar plant

At the end of March, Qatar Solar Technologies (QSTec) – a joint venture (JV) between Qatar Solar (a subsidiary of Qatar Foundation), Germany’s SolarWorld AG and Qatar Development Bank – announced that the first polysilicon had been produced at its new production plant in Ras Laffan Industrial City, 80 km north of Doha. Polysilicon is a high-purity form of silicon and a key component in a range of solar photovoltaic (PV) technologies.

The factory, which is currently in the final stages of being commissioned, will have an annual production capacity of 8000 tonnes and is expected to start exporting later this year.


Speaking to OBG, Khalid Klefeekh Al Hajri, chairman and CEO of QSTec, said that the plant’s polysilicon would initially be for export to meet global demand for high-purity, Tier 1 polysilicon.


Al Hajri went on to say that he sees the facility’s initial production capacity as just the first phase and expects it to move up to as much as 50,0000 tonnes per annum over time.

The plant has also been designed with sustainability in mind, possessing 1.1 MW of solar generation capacity and waste treatment facilities to recycle excess gases and water.



“I am very positive about the growth potential of solar energy and research in Qatar and across the MENA region. We have the perfect climatic conditions, and the government has shown the will to diversify its energy mix ,” Al Hajri told OBG.

PV demand

The projected increase in polysilicon output over time is likely to be matched by growing demand for PV technology. According to the latest “Global Power Industry Outlook” from research consultancy Frost & Sullivan, solar photovoltaic will be the energy sector’s highest growth area this year, with investment forecast to increase by 11.5% to €141.6bn.

The MENA region is itself a strong market for PV products, where increased awareness of the need to diversify the energy mix prompted investments in solar projects to grow from $160m in 2010 to $3.5bn in 2015.

Broader vision

Qatar will be looking to maintain this momentum in renewable power generation as it continues to pursue its long-term strategy plan, Qatar National Vision 2030, which aims to fill an expected growth in power demand while simultaneously increasing the sustainability of the country’s energy mix.

Between 2006 and 2016, power and water consumption recorded average growth rates of 10.4% and 7.7% a year, respectively, according to data released by Qatar Electricity and Water Company (Kahramaa), the country’s main utilities regulator.

Furthermore, research conducted last year by the Arab Petroleum Investments Corporation shows that Qatar will need to attract $9bn in its power sector between 2016 and 2020 to keep pace with electricity demands.

Power supply

One upcoming project that is set to fulfil part of this need is a 200-MW solar power plant being developed by Siraj Power – a JV between Kahramaa and Qatar Petroleum, which has provided $500m in start-up capital for the project.

Construction of the facility is scheduled to start in June, with plans already in place to expand the project’s capacity to 500 MW in the future.

Continuing to attract investments of this scale should not pose too difficult an obstacle, as Qatar’s location is ideal for future solar projects. According to the Climate Technology Centre and Network, the annual solar energy potential of each square kilometre of Qatari soil is equivalent to 1.5m barrels of oil.

Multiple applications

Qatar has also been encouraging the use of solar technology in the urban environment.

Several large-scale developments are deploying rooftop solar installations as part of their energy infrastructure, including Mshereib Downtown Doha, a sustainable downtown regeneration project; Lusail City, a planned city on the coast north of Doha; and Energy City, an integrated energy hub being built between Lusail City and the capital.

Five of the FIFA 2022 World Cup stadiums are also slated to use pioneering solar-powered cooling technology.

Speaking to media in July last year, Khalid Al Subai, acting executive director of the Qatar Environment and Energy Research Institute, underlined the potential for rooftop solar solutions in Qatar, with electricity demand closely tracking solar intensity during the hottest months of the year.

“Thus, rooftop solar becomes very cost effective in lowering peak electricity demand, which is very important to Qatar’s utilities,” he said.

https://www.zawya.com/mena/en/story/Qatar_gets_serious_about_solar-ZAWYA20170427112810/

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Oman signs pact to build $94mln solar panel project
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02 May 2017
A E James
Muscat: A Chinese firm is joining hands with an Omani investment fund to build a large solar panel project in Duqm, which will have a capacity to manufacture panels for power plants to generate 1,000 megawatt (MW) energy per annum.

Ningxia Zhongke Jiaye New Energy and Technology Management Co. has signed a memorandum of understanding (MoU) with Oman Investment Fund to build the $94 million-solar panel venture in Duqm free zone. Ningxia Zhongke will have a 51 per cent stake, while the remaining 49 per cent ownership will be held by Oman Investment Fund, the president of Ningxia Zhongke, Li Li, told Times of Oman.

In the first phase, the proposed company plans to produce solar panels that can generate 400 megawatt (MW) of energy per annum, which will be increased to 1,000 MW in the second phase. Also, the company anticipates $215 million in sales revenue per annum in the first phase.


The Chinese firm, which last month signed a land lease agreement with Oman Wanfang, the company that manages 1,172 hectares of land for developing a major China-Oman industrial zone in Duqm, plans to export its products to overseas markets, where the company has a strong presence.

Export markets

Presently, most of Ningxia’a products are sold within China, while a portion of the production is exported to Australia, Japan and south Asian countries. Since Oman does not have a large scale solar power plant, there is no ready-made market within the country. “This is what we need to push. We need to push the government to set up solar power stations,” added Li Li.

Ningxia has already conducted an initial feasibility study for setting up the project within Duqm free zone. “Now, we have to find out whether the raw materials for the project will be available locally. Also, we have to conduct a detailed market study before building the project. If the raw materials are not available within Oman, they will have to be imported.”

The company plans to start work on the project towards the end of the current year, or early next year.

Ningxia panels meet all international standards, including European and US standards.

“So, there will not be any problem in getting regulatory approvals in Oman,” said Li Li.

Employment potential

The Chinese company plans to employ 300 people in the first phase, which will be scaled up to 900 to 1,000 employees in the second phase.

“This is the first project, and if it goes well we have plans to build other projects. These projects are for making other products in the entire solar industry value chain,” added the official. He noted that China accounts for 70 per cent of global solar panel production.

Apart from Ningxia, nine Chinese firms last month signed land lease agreements with Oman Wanfang to build various projects, ranging from a methanol venture to a five-star hotel, with a total investment of $3.06 billion.

Oman Wanfang, which is a consortium of six private Chinese firms, will develop and attract direct foreign investment from China for building a host of light, medium and heavy industries and tourism projects.


https://www.zawya.com/mena/en/story...4mln_solar_panel_project-ZAWYA20170502050749/
 
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At a cost of $700 million (granted that's peanuts) and the mirrors scattered for an area equivalent to 400 football pitches (WTH is a football pitch? Did she mean a football field?), that's a lot of square footage and for what, 1% of Israel's needs? Seems like a very low return for investment in land space which you're very short of. Even with a 2nd pair of towers and an eventual 10% rise in solar energy, seems like a lot of effort & land given up for a small return. Still a very neat system.



Looking at that map, it's easy to see why Ethiopia, Somalia, Sudan and Chad have suffered great droughts. The desert is unforgiving look at all that purple in just those 4 countries.

Renewable energy sources will only get better and keep lowering the cost of oil, which is GREAT! Geothermal energy should be more abundantly used in the Sahara desert since the earth's core and surface are both extremely hot. It might work better than where a lot of it is being currently sourced which is in colder climates. But speaking of Ethiopia, they're also investing in geothermal energy for electricity generation, but it's not producing enough so they need the dam. At least that is a "old-school" form of renewable source.
They intend to better learn the technology, so it will be more than profitable in the future, it's said in the video.
 
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Geothermal energy in the desert? Don't you need water for using geothermal energy? However, you're wrong. There is probably no place on this planet which is more suitable for solar energy than North Africa/Arab world. Isn't this obvious?

I don't think you understood my post. Were did I say the desert isn't the best suitable place for solar powered energy? I merely suggested they should also try geothermal energy technology since the heat on the surface is also great while they're retrieving heat from below the earth's crust so there might not be as much heat loss as in colder climates, where you see it not only being used to generate power, but for heat sources in newly built, green homes as well. Some of the most feasible spots on this earth for GT are hot spots such as the deserts. Take a look at EA's link and the underlined part.

And the reason it's mostly used in colder climates is because it's used as a direct, heating source for habitable structures and not necessarily for electricity production. Heating homes and buildings in current forms uses mostly fossil fuels (gas, propane, oil, diesel fuel etc.) which we're so dependent on and the entire reason for the whole renewable energy sources movement. Either way, both forms of natural resources (solar & geo.) need to be harnessed through a process to deliver electricity, but geothermal energy, used strictly as a heating source is literally the best - an infinite, natural fossil fuel - that the earth is constantly producing on its own.

Water is not an issue when you spend a $ billion and build a geo-plant, you can easily add a pair of water tanks that you fill up once and recycle for much longer uses. After all, recycling is the major part of conservation of resources. Water is also easily retrievable in the desert through wells to replace any evaporation in the process. The advantage geothermal energy has over solar is that the earth's heat is constant, and never predicated by the sunlight hours only. An undeniable advantage.

They intend to better learn the technology, so it will be more than profitable in the future, it's said in the video.

It also said 400 "pitches." I'm trying to determine the size and how much land is needed for that type of thing that really doesn't give you much return, tbh. It also said the production will jump to 10% of Israel's electricity needs after the 2nd one is built, but I find that jump from 1% to 10% a bit too ambitious, possibly unrealistic considering the yield of the first one is very small. Double it and you get 2%. Triple it and you get 3%. Factor in other possibilities of achieving higher results and maybe 5%? You see? Doesn't matter what they say, just sayin'.
 
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I don't think you understood my post. Were did I say the desert isn't the best suitable place for solar powered energy? I merely suggested they should also try geothermal energy technology since the heat on the surface is also great while they're retrieving heat from below the earth's crust so there might not be as much heat loss as in colder climates, where you see it not only being used to generate power, but for heat sources in newly built, green homes as well. Some of the most feasible spots on this earth for GT are hot spots such as the deserts. Take a look at EA's link and the underlined part.

And the reason it's mostly used in colder climates is because it's used as a direct, heating source for habitable structures and not necessarily for electricity production. Heating homes and buildings in current forms uses mostly fossil fuels (gas, propane, oil, diesel fuel etc.) which we're so dependent on and the entire reason for the whole renewable energy sources movement. Either way, both forms of natural resources (solar & geo.) need to be harnessed through a process to deliver electricity, but geothermal energy, used strictly as a heating source is literally the best - an infinite, natural fossil fuel - that the earth is constantly producing on its own.

Water is not an issue when you spend a $ billion and build a geo-plant, you can easily add a pair of water tanks that you fill up once and recycle for much longer uses. After all, recycling is the major part of conservation of resources. Water is also easily retrievable in the desert through wells to replace any evaporation in the process. The advantage geothermal energy has over solar is that the earth's heat is constant, and never predicated by the sunlight hours only. An undeniable advantage.



It also said 400 "pitches." I'm trying to determine the size and how much land is needed for that type of thing that really doesn't give you much return, tbh. It also said the production will jump to 10% of Israel's electricity needs after the 2nd one is built, but I find that jump from 1% to 10% a bit too ambitious, possibly unrealistic considering the yield of the first one is very small. Double it and you get 2%. Triple it and you get 3%. Factor in other possibilities of achieving higher results and maybe 5%? You see? Doesn't matter what they say, just sayin'.
Possibly the second and third will be improved version, and bigger, no one said that they're the same so concluding that u did is impossible without the data itself.
 
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I don't think you understood my post. Were did I say the desert isn't the best suitable place for solar powered energy? I merely suggested they should also try geothermal energy technology since the heat on the surface is also great while they're retrieving heat from below the earth's crust so there might not be as much heat loss as in colder climates, where you see it not only being used to generate power, but for heat sources in newly built, green homes as well.

But why should they? Solar energy is cheaper and faster to implement.
 
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