Introduction

 

Solar energy has become an increasingly popular alternative energy source worldwide. In recent years, Oman, a country known for its abundant sunlight, has been exploring the potential of solar energy as a sustainable and cost-effective solution to meet its growing energy needs. This article will delve into the current state of solar energy in Oman, its benefits, challenges, and future prospects.

The Importance of Solar Energy in Oman

  1. Abundant Sunlight: Oman is blessed with a high solar radiation potential due to its geographical location in the Arabian Peninsula. The country receives an average of 2,800 hours of sunshine per year, making it an ideal location for harnessing solar energy.
  2. Diversifying Energy Sources: Solar energy provides a means to diversify Oman’s energy mix, which is currently heavily reliant on fossil fuels, especially natural gas. By embracing solar power, the country can reduce its dependence on nonrenewable energy sources and improve energy security.
  3. Environmental Benefits: Solar energy is a clean and renewable energy source. By harnessing sunlight to generate electricity, Oman can significantly reduce its carbon footprint and mitigate the impacts of climate change. Solar power generation produces zero greenhouse gas emissions, making it an environmentally friendly alternative to traditional fossil fuel-based energy generation methods.

Current Scenario of Solar Energy in Oman

  1. Solar Projects: Oman has embarked on an ambitious plan to develop solar energy projects across the country. The government’s Renewable Energy Initiative aims to achieve a target of 30% renewable energy by 2030, with a considerable focus on solar power.
  2. Solar Farms: One of the key initiatives in Oman’s solar energy sector is the establishment of large-scale solar farms. These projects aim to generate significant amounts of electricity to meet the growing energy demand in the country. Notable solar farms include the Adam Solar Power Plant and the Ibri Solar Plant, which have a combined capacity of over 500 MW.
  3. Rooftop Solar Installations: In addition to large-scale projects, Oman is also encouraging the adoption of rooftop solar installations. These installations allow residents and businesses to generate their own solar power, reducing reliance on the national grid and lowering electricity bills. The government provides incentives and supports net metering schemes to promote the uptake of rooftop solar systems.

Challenges and Opportunities

  1. Cost: The initial investment required for setting up solar power projects can be a significant barrier. However, with advancements in technology and decreasing costs of solar panels, the overall cost of solar energy production has significantly reduced in recent years. This trend makes solar energy increasingly financially viable in Oman.
  2. Grid Integration: Integration of solar energy into the existing power grid infrastructure poses technical challenges. However, advancements in smart grid technologies and energy storage solutions are helping to address these issues. Implementing grid-scale energy storage systems can enable smooth integration of solar power and ensure a stable and reliable energy supply.
  3. Skills Development: The rapid development of the solar energy sector in Oman requires skilled personnel to design, install, and maintain solar power systems. Investing in workforce training programs and educational initiatives focused on renewable energy can ensure a competent workforce to support the growth of the sector.

Future Prospects and Conclusion

Solar energy in Oman holds immense potential and promises a bright future for sustainable energy generation. The government’s commitment to renewable energy, combined with its abundant sunlight resources, positions Oman as an attractive destination for solar investments. As the cost of solar power continues to decline and technological advancements enable better integration into the power grid, solar energy is expected to play a pivotal role in Oman’s energy transition.

In conclusion, solar energy in Oman offers a viable and sustainable solution to meet the country’s energy needs. Harnessing the power of the sun not only reduces reliance on fossil fuels but also contributes to the preservation of the environment. As solar projects continue to expand and innovative solutions emerge, Oman has the potential to become a regional leader in renewable energy.

Green Hydrogen in Oman: A Sustainable Future

Oman is a country that is rich in renewable energy sources, including solar and wind energy. In recent years, the government of Oman has been taking steps to harness these sources and promote the use of green hydrogen as a sustainable energy solution. Green hydrogen is produced using renewable energy sources, such as solar and wind power, and has the potential to revolutionize the energy industry.

Green Hydrogen in Oman: A Sustainable Future

What is Green Hydrogen?

Green hydrogen is a type of hydrogen that is produced using renewable energy sources, such as solar and wind power. It is produced by using an electrolyzer to split water into hydrogen and oxygen. The hydrogen that is produced can then be used as a fuel source for a variety of applications, including transportation, heating, and electricity generation.

Oman’s Commitment to Green Hydrogen

Oman is committed to promoting the use of green hydrogen as a sustainable energy solution. The country has established the Oman Hydrogen Initiative, which aims to develop a green hydrogen ecosystem in Oman. The initiative includes plans to develop a green hydrogen production facility, which will be powered by renewable energy sources.

Green Hydrogen Projects in Oman

One of the key green hydrogen projects in Oman is the Duqm Green Hydrogen Project, which is a joint venture between the Omani government and a consortium of international companies. The project aims to develop a green hydrogen production facility in Duqm, which will be powered by renewable energy sources. The facility will produce up to 25,000 tons of green hydrogen per year, which will be used as a fuel source for transportation and industrial applications.

Benefits of Green Hydrogen

Green hydrogen has several benefits over traditional fossil fuels. It is a clean and sustainable fuel source that produces no greenhouse gas emissions when used. It also has the potential to reduce dependence on fossil fuels and promote energy security. Additionally, green hydrogen can be used in a variety of applications, including transportation, heating, and electricity generation.

 

 

  • Tab 1
  • Tab 2
  • Tab 3
  • Tab 4
  • Importance of sustainable energy solutions
  • Overview of green hydrogen and its potential in Oman
    • Definition of green hydrogen
    • Production process using renewable energy sources
    1. Oman’s Commitment to Green Hydrogen
    • The Oman Hydrogen Initiative
    • Plans to develop a green hydrogen production facility
    1. Green Hydrogen Projects in Oman
    • The Duqm Green Hydrogen Project
    • Other green hydrogen projects in Oman
    • Clean and sustainable fuel source
    • Reduction in greenhouse gas emissions
    • Energy security and independence
    • Versatility in transportation, heating, and electricity generation
    • The Future of Green Hydrogen in Oman
    • Potential for green hydrogen to revolutionize the energy industry
    • Oman’s role in promoting sustainable energy solutions

    Conclusion

    • Recap of Oman’s commitment to green hydrogen

    Sure, here’s a possible table of contents for the article:

    Introduction

    • Importance of sustainable energy solutions
    • Overview of green hydrogen and its potential in Oman

    What is Green Hydrogen?

    • Definition of green hydrogen
    • Production process using renewable energy sources

    Oman’s Commitment to Green Hydrogen

    • The Oman Hydrogen Initiative
    • Plans to develop a green hydrogen production facility

    Green Hydrogen Projects in Oman

    • The Duqm Green Hydrogen Project
    • Other green hydrogen projects in Oman

    Benefits of Green Hydrogen

    • Clean and sustainable fuel source
    • Reduction in greenhouse gas emissions
    • Energy security and independence
    • Versatility in transportation, heating, and electricity generation

    The Future of Green Hydrogen in Oman

    • Potential for green hydrogen to revolutionize the energy industry
    • Oman’s role in promoting sustainable energy solutions

    Conclusion

    • Recap of Oman’s commitment to green hydrogen
    • Call to action for promoting sustainable energy solutions

    Add your content here…

    Add your content here…

    Solar Energy Projects: A Promising Future for Oman

    Oman is a country that is blessed with abundant sunshine throughout the year. This makes it an ideal location for the development of solar energy projects. In recent years, the government of Oman has been taking steps to harness solar energy and promote the use of renewable energy sources. As a result, the solar energy sector in Oman is experiencing significant growth, with several large-scale solar projects being planned and implemented.

    One of the key drivers behind the growth of solar energy projects in Oman is the country’s commitment to reducing its reliance on fossil fuels. With the price of oil fluctuating and the negative impact of fossil fuels on the environment, Oman is actively seeking to diversify its energy mix and promote the use of renewable energy sources. In addition, the government of Oman has set a target of generating 10% of its electricity from renewable energy sources by 2025, which has led to a surge in solar energy projects.

    One of the most notable solar energy projects in Oman is the Amin Solar PV project, which is being developed by the Oman Power and Water Procurement Company (OPWP). The project is expected to have a capacity of 500 MW and will be one of the largest solar projects in the world. It is also expected to significantly reduce Oman’s carbon footprint and contribute to the country’s goal of generating 10% of its electricity from renewable energy sources by 2025.

    In addition to large-scale solar projects, there is also a growing interest in small-scale solar projects in Oman. This includes the use of solar panels in homes and businesses, which can help reduce electricity bills and promote sustainable living. There are also several companies in Oman that offer solar installation services, making it easier for individuals and businesses to adopt solar energy.

    Another factor that is driving the growth of solar energy projects in Oman is the declining cost of solar technology. With advances in technology and increased production, the cost of solar panels has decreased significantly in recent years. This has made solar energy more affordable and accessible, which is encouraging more people in Oman to invest in solar energy.

    In conclusion, the future of solar energy in Oman looks promising. With abundant sunshine and a commitment to reducing its reliance on fossil fuels, Oman is well-positioned to become a leader in the development of solar energy projects. Whether it’s large-scale solar projects or small-scale installations in homes and businesses, solar energy has the potential to transform Oman’s energy landscape and contribute to a more sustainable future.

     

    As the world shifts towards renewable energy, Oman is also taking steps to reduce its dependence on non-renewable sources of energy. One of the most promising forms of renewable energy in Oman is solar power, with several large-scale solar PV projects already underway.

    In this article, we’ll take a closer look at solar PV projects in Oman, including their current status, benefits, and opportunities for investors.

     

    Oman has already made significant progress in harnessing the power of the sun. The 105 MW Amin Solar PV project, located in the southern region of Amin, is one of the largest utility-scale solar PV projects in the region. Developed by Saudi Arabia’s ACWA Power, the project is expected to supply electricity to around 15% of Oman’s population.

    In addition to the Amin Solar PV project, several other solar PV projects are currently underway in Oman. The 1 GW Ibri II solar PV project is currently under construction and is expected to be completed by 2024. Other planned solar PV projects include the 500 MW Manah Solar I and 1 GW Manah Solar II projects, which have been tendered by Oman Power and Water Procurement Company (OPWP).

    Benefits of Solar PV Projects in Oman

    Solar PV projects in Oman offer a range of benefits, both for the environment and the economy. Here are some of the key advantages:

    Renewable Energy:

    Solar PV projects are a clean and sustainable source of energy, producing electricity without emitting greenhouse gases or other harmful pollutants. This helps to reduce Oman’s carbon footprint and improve air quality.

    Energy Security:

    By diversifying its energy mix, Oman can reduce its dependence on non-renewable sources of energy and improve its energy security. This can help to mitigate the risks associated with global oil price fluctuations.

    Economic Development:

    Solar PV projects can provide significant economic benefits for Oman, including job creation, local procurement, and technology transfer. In addition, solar PV projects can attract foreign investment and support the development of local industries and supply chains.

     

     

     

    Solar PV projects in Oman offer a range of benefits for both the environment and the economy. With several large-scale projects already underway and more planned for the future, there are plenty of opportunities for investors to participate in Oman’s transition towards renewable energy. By investing in solar PV projects, Oman can reduce its reliance on non-renewable sources of energy, improve its energy security, and contribute to a more sustainable future.

    هناك العديد من المعايير التي يجب اعتبارها عند اختيار مقاول الطاقة الشمسية المناسب لك

    الترخيص: يجب التأكد من أن المقاول الذي تتوقع أن تعامل معه قد تلقى الترخيص الرسمي والتعهدات اللازمة من الجهات المعنية ( مجلس قواعد توزيع الكهرباء)

    خبرة مقاول الطاقة الشمسية

    يجب التأكد من أن المقاول الذي تتوقع أن تعامل معه قد كان يعمل في هذا المجال لعدة سنوات ولديه الخبرة اللازمة لتنفيذ العمل بشكل فعال.

    السعر

    يجب التأكد من أن المقاول الذي تتوقع أن تعامل معه قد تقدم أسعار معقولة ومقارنة بالشركات الأخرى.

    العروض والتعليقات

    يجب التحقق من العروض التي يقدمها المقاول وطلب التعليقات من العملاء السابقين او الاستشاريين المختصين للتأكد من جودة العمل الذي يقدمه.

    الضمانات المقدمة من مقاول الطاقة الشمسية

    يجب التأكد من أن المقاول الذي تتوقع أن تعامل معه قد تقدم ضمانات معقولة وملائمة للعمل الذي يقوم به.

    ضمان الالواح –

    ضمان العاكس (inverter ) –

    حامل الالواح (نظام التثبيت) –

    عند التأكد من تلك المعايير والتحقق منها، يمكنك اختيار مقاول الطاقة الشمسية الذي يلبي متطلبا

    اختيار مقاول الطاقة الشمسية علي حسب الترخيص

    1-20 كيلوات – ترخيص S1 (اغلب المنازل ) –

    اعلى من 20 كيلوات – يعتمد على نوعية الربط –

    415V  : S2 –          

     11kV   : S3  –

    المقاولون المعتمدون في الطاقة الشمسية في سلطنة عمان من قبل مجلس قواعد التوزيع

    https://www.dcrp-oman.com/documents/CCAS%20solarlist.pdf

    الاستشاريون المعتمدون

    https://www.dcrp-oman.com/documents/CCASConsultants21.pdf

    Best Solar Panels

    It is difficult to determine the “best” solar panel as different panels may be better suited to different installations and user needs. Some factors to consider when choosing a solar panel include the panel’s efficiency, durability, warranty, and price. It is also important to consider the specific needs of your installation, such as the available space, the local climate, and the orientation of your roof or ground-mounted system.

    Best Solar Panels In The Market

    SunPower and LG are often considered to be among the best solar panel manufacturers due to their high-efficiency rates and strong warranties. SunPower panels have a reputation for being some of the most efficient on the market, with some models reaching efficiency rates of over 22%. LG panels are also known for their high efficiency and come with a 25-year warranty.

    It is important to note that the “best” solar panel for you will depend on your specific needs and budget. It is always a good idea to do your own research and compare multiple options before making a decision.

    National Renewable Energy Laboratory (NREL)

    The National Renewable Energy Laboratory (NREL) is a research laboratory that is part of the U.S. Department of Energy. NREL conducts research on renewable energy technologies, including solar panels, and publishes information on the performance of different panels.

    NREL publishes a list of the top-performing photovoltaic (PV) modules, which includes solar panels that have been tested and certified by independent laboratories. The list is updated periodically and includes both monocrystalline and polycrystalline panels.

    It is important to note that the NREL list is not a ranking of solar panel manufacturers, but rather a list of individual panels that have demonstrated high performance in NREL’s testing. The list is intended to provide information to help consumers make informed decisions when purchasing solar panels.

    To view the current list of top-performing PV modules, you can visit the NREL website at https://www.nrel.gov/pv/performance-data.html. The list is sorted by module efficiency, with the most efficient panels listed first. You can use the filters on the page to narrow down the list based on your specific needs.

     

     

     

    الطاقة الشمسية هي شكل من أشكال الطاقة المتجددة التي تأتي من الشمس. يمكن استخدامه لإنتاج الحرارة والضوء والدفع وموجات الراديو. تستخدم معظم الدول الطاقة الشمسية لأغراض مختلفة مثل تسخين المياه وطهي الطعام. يعد استخدام الطاقة الشمسية أمرًا ضروريًا في المناخات المعتدلة حيث يكون الجو باردًا في الليل وحارًا أثناء النهار. عُمان بلد معروف بموارده الوفيرة من الطاقة الشمسية. إليك ما تحتاج لمعرفته حول استخدام الطاقة الشمسية في عمان.

    أول محطة للطاقة الشمسية في عمان

    تم بناء أول محطة للطاقة الشمسية في عمان في عام 2009 وتولد 100 ميغاواط من الطاقة. مما جعلها أول محطة للطاقة الشمسية في السلطنة بطاقة تزيد عن 10 ميغاواط. تم بناء المصنع على موقع بمساحة 648 فدانًا في قريات وله أربعة أبراج متصلة بها طائرات الهليوستات. ويغطي 5٪ من إجمالي الطلب على الكهرباء في البلاد ويقلل من استهلاك النفط بمقدار 1300 برميل في اليوم. كما خفضت مستويات ثاني أكسيد الكربون في الهواء بأكثر من 2000 طن متري. – تشجع عمان المواطنين على استخدام الطاقة الشمسية لتقليل اعتمادها على استخراج النفط. إنهم يرون في ذلك فرصة لتقليل انبعاثات غازات الاحتباس الحراري وانبعاثات الكربون مع زيادة إمدادات الكهرباء. تنتج كل منشأة طاقة كافية لتشغيل حوالي 100000 منزل بمحطة ميغاواط واحدة. بالإضافة إلى ذلك ، تساعد هذه المحطات في تقليل مستويات الغبار من خلال إنتاج طاقة نظيفة مع تنظيف البيئة عبر طرق تحلية المياه بواسطة الرياح. هذه ليست سوى بعض الفوائد العديدة لاستخدام الطاقة الشمسية في عمان. – – العديد من العوامل تجعل عمان مكانًا رائعًا لاستخدام الطاقة الشمسية. لديها واحدة من أعلى تصنيفات الشمس بين جميع البلدان في الشرق الأوسط وأفريقيا بسبب ارتفاع معدل التشمس. هذا يعني أن شمسها قوية جدًا وقادرة على توليد الكثير من الطاقة الشمسية. علاوة على ذلك ، عمان هي واحدة من الدول القليلة التي لم تتأثر بالعصر الجليدي على الرغم من كونها تقع بالقرب من خط الاستواء. هذا يعني أن شمسها مشرقة دائمًا وتوفر ظروفًا مثالية لتوليد الطاقة الشمسية. بشكل أساسي

    موقع سلطنة عمان والانتاجية

    ، تتمتع عمان بالكثير من ضوء الشمس مما يجعلها مكانًا مثاليًا لاستخدام الطاقة الشمسية.

    تعد عمان مكانًا مثاليًا لاستخدام الطاقة الشمسية نظرًا لتصنيفها العالي لأشعة الشمس وتشجيع السياسات الحكومية المتعلقة بها. لقد كانوا أول دولة في العالم تبني محطة كبيرة للطاقة الشمسية في عام 2009 – مما يجعلها أفضل! تشجع الدولة المواطنين على استخدام الطاقة النظيفة من خلال دعم الألواح الشمسية وتوربينات الرياح ومحطات الطاقة الحرارية الأرضية والمزيد! إنهم يتخذون خطوات في الاتجاه الصحيح عندما يتعلق الأمر باستخدام الطاقة المتجددة النظيفة مثل الطاقة الشمسية!

    The green hydrogen is a clean, renewable and eco-friendly way to produce hydrogen. Hydrogen is a key component of fuel cells and can be used to create electricity, heat or water. Hydrogen can be produced from water using electrolysis. This process uses electricity to split the hydrogen from oxygen. The green hydrogen production process utilises renewable energy sources, such as solar or wind power, to power the electrolysis process. This means that no fossil fuels are used to produce hydrogen and there are no emissions released into the atmosphere during production. In a commercial facility the green hydrogen production process can be more efficient and cost effective than traditional methods. Currently there are limited commercial facilities that produce hydrogen using this method.

    Grey hydrogen

    is a process where natural gas is converted to hydrogen using steam methane reforming. This is the traditional method used in the production of hydrogen. Natural gas is converted to hydrogen by adding steam to a mixture of natural gas and air at a high temperature. The hydrogen produced in this process contains high levels of contaminants, including carbon monoxide and carbon dioxide. These contaminants must be removed from the hydrogen before it is used in the hydrogen fuel cell or other hydrogen applications. Producing clean hydrogen using a grey hydrogen process requires additional steps, equipment and chemicals to remove these contaminants from the hydrogen. These steps add to the cost and energy required to produce hydrogen and can also lead to increased emissions. The Green Hydrogen Process produces clean hydrogen without the need for these additional steps and equipment.

    Blue hydrogen

    The concept of “blue hydrogen” was proposed as an alternative to green hydrogen. Blue hydrogen is produced through a conventional natural gas reforming process that uses coal rather than natural gas as the fuel source. The production of blue hydrogen results in higher levels of greenhouse gas emissions when compared to the production of green hydrogen. Green hydrogen is produced by steam reforming of natural gas. This generates fewer emissions than conventional natural gas reforming processes because it only releases the energy contained in the natural gas. In contrast, blue hydrogen requires the combustion of coal to generate the heat for the reaction, resulting in greater greenhouse gas emissions.

    Green hydrogen is produced by electrolysis of water, which is 50% less carbon intensive than steam reforming. The primary cost of producing green hydrogen is the cost of electricity. Under certain conditions, such as excess wind power or off-peak periods of high electricity prices, the break-even point for green hydrogen production is less than $2/kg H2, making it competitive with other hydrogen production processes.

    Low-carbon hydrogen

    Low-carbon hydrogen production from CO2 capture and storage (CCS)     is more costly than green hydrogen production. The cost of CCS depends on the local CCS technologies used; generally, these costs will be higher than current renewable energy costs. In addition, the high cost of CO2 capture equipment results in a low overall energy yield during the production process.

    Hydrogen can be produced electrochemically from water using existing commercial electrolysis technologies, but this process is thermodynamically challenging and requires a great deal of electricity input (25-60 kWh per KG H2)    . For this reason, the production of low-carbon hydrogen from electrolysis has to date been limited to small-scale applications. The use of renewable electricity to power large-scale electrolyzers is the most promising approach for enabling industrial-scale production of low-carbon hydrogen in the near future.

    What we can get from 1 KG of Hydrogen ?

    Electrolysis of water to produce hydrogen consumes 62 kWh of electricity per 1 kg of hydrogen produced. When compared to green hydrogen production from steam reforming, electrolysis consumes significantly more energy and has significantly higher environmental consequences. Furthermore, there is the potential for future increases in the price of electricity, which will negatively affect the viability of electrolysis-based hydrogen production.

    Reference :

    1. Advantages of green hydrogen: A fuel for the clean energy transition (https://www.innovationnewsnetwork.com/advantages-green-hydrogen-fuel-clean-energy-transition/22153/)     
    2. The difference between green hydrogen and blue hydrogen (https://www.petrofac.com/media/stories-and-opinion/the-difference-between-green-hydrogen-and-blue-hydrogen/)     
    3. Green Hydrogen (https://www.sciencedirect.com/topics/engineering/green-hydrogen )    
    4. What is green hydrogen and why do we need it? An expert explains (https://www.weforum.org/agenda/2021/12/what-is-green-hydrogen-expert-explains-benefits/ )    
    5. 50 shades of (grey and blue and green)     hydrogen (https://energy-cities.eu/50-shades-of-grey-and-blue-and-green-hydrogen/)     
    6. Green hydrogen (https://en.wikipedia.org/wiki/Green_hydrogen )    
    7. Electrification of the chemical industry—materials innovations for a lower carbon future (https://link.springer.com/article/10.1557/s43577-021-00243-9 )    
    8. Electrification of the chemical industry—materials innovations for a lower carbon future (https://link.springer.com/article/10.1557/s43577-021-00243-9 )    
    9. ECONOMICS (https://www.sgh2energy.com/economics#:~:text=COST%20COMPARISON&text=Green%20hydrogen%20produced%20through%20electrolysis,to%20higher%20natural%20gas%20prices.)      

    PPA regulatory framework in Oman

    According to Oman’s Authority for Public Services Regulation, a highly awaited regulatory framework intended to allow qualified power providers to sell electricity directly to large consumers will be finished by the end of this year (APSR). To speed up the pace of foreign investment in Oman’s emerging renewables and green hydrogen industries, the Direct Sales Framework, which is a component of attempts to further liberalize the country’s power sector, is essential. Additionally, it would enable so-called “bilateral agreements” signed directly between significant consumers and generators, eschewing the state-owned Oman Power and Water Procurement Co. (OPWP), the sector law’s only buyer of all power output.

    Following the Council of Ministers’ approval of this new initiative last year, work on the legislative and regulatory framework that would support it got under way. Its actual implementation is planned in stages, with the Authority preparing to conduct ongoing assessments of the project to make sure it “meets the legislative and technical standards” and is “economically feasible.” “In the first phase, the eligible participants include generators with expired PPA (Power Purchase Agreements) and industrial clients with current captive output,” the Authority said of the customers that are qualified for direct sales of wholesale power.

    Qualified participants

    The Authority stated that the list of qualified participants may be expanded in due time. Technical considerations must be taken into account by the Direct Sales Framework, primarily to guarantee that physical connections, dispatch implications, metering data, and settlement implications are all taken into account. However, the price signals that current electricity system users and consumers who are qualified for direct sales perceive also have complicated commercial and economic repercussions, it continued. The Direct Sales Legal Framework is anticipated to encourage investments in large-scale renewable and green hydrogen projects, which the Omani government is counting on to support its transition away from hydrocarbons as the main engine of the nation’s economic development. This will also help the system save money.

    Oman Green energy Projects

    In the Sultanate of Oman, a number of green energy projects with a combined global capacity of 30 gigawatts (GW) of renewable energy are anticipated to be implemented during the ensuing decades. The output of these multibillion-dollar investments in green hydrogen and green ammonia is expected to support a variety of green industries as well as zero-carbon transportation and mobility options. While some of the green hydrogen and green ammonia is expected to be exported to international markets, the remainder is anticipated to be used locally. The Omani government’s goal of sparking the development of a future zero-carbon economy in the nation is considered as being realized in large part via the Direct Sales Framework.

    https://www.omanpwp.om/new/Pages.aspx?Pid=61

    افتتاح اكبر محطة طاقة شمسية في عمان

    افتتحت سلطنة عمان أكبر محطة للطاقة الكهربائية النظيفة في البلاد ، بتكلفة استثمارية إجمالية قدرها 155 مليون ريال عماني (403 ملايين دولار) وبطاقة 500 ميغاوات. المحطة المسماة عبري مبنية على مساحة 13 مليون متر مربع وتستخدم حوالي 1.5 مليون لوح شمسي مزدوج الوجه وأكثر من 7000 كيلومتر من الكابلات و 1812 روبوت تنظيف.هذه اللوحات. المشروع عبارة عن شراكة بين القطاعين العام والخاص. وقعت الشركة العمانية لشراء الطاقة والمياه اتفاقية مع مجموعة الخليج للاستثمار بقيادة أكوا باور لإنشاء المشروع بمشاركة مؤسسة الخليج للاستثمار وشركة مشاريع الطاقة البديلة. هذا المصنع مملوك ويتم تشغيله.سينتج المشروع طاقة متجددة لصالح الشركة العمانية لشراء الطاقة والمياه لمدة 15 عاما. هذا هو المشروع الأول في برنامج الطاقة المتجددة في عمان. تستثمر سلطنة عمان في المزيد من مشاريع الطاقة للمساعدة في تنويع مصادر الكهرباء في عمان وتقليل انبعاثات الكربون.

    المشروع شراكة بين القطاعين العام والخاص

    يمثل المشروع شراكة بين القطاعين العام والخاص ، حيث وقعت شركة عمانية لشراء الطاقة والمياه صفقة مع مجموعة الخليج للاستثمار بقيادة أكوا باور ، بمشاركة مؤسسة الخليج للاستثمار وشركة مشروع الطاقة البديلة. وتمتلك وتدير هذا المصنع.

    الانتاجية المتوقعة

     ستنتج محطة الطاقة الطاقة المتجددة لصالح الشركة العمانية لشراء الطاقة والمياه لمدة 15 عامًا ، والمشروع جزء من برنامج الطاقة المتجددة في دولة عمان ، على أساس مفهوم المنتج المستقل ، المشروع الأول.

    تنويع مصادر الطاقة

     تعمل دولة عمان على تكثيف مشاريع الطاقة المحلية وسط توجه أكبر نحو مصادر الطاقة المتجددة ، بهدف تنويع مصادر إمداد الطاقة لديها والمساهمة في تقليل انبعاثات الكربون.

    مساهمة مشروع عبري في الشبكة

      قال يعقوب بن سيف الكيومي ، الرئيس التنفيذي والمهندس للشركة العمانية لشراء الطاقة والمياه ، إن مشروع محطة عبري للطاقة الشمسية ساهم بنحو 3٪ من الطاقة المولدة في شبكة الكهرباء الرئيسية في الأشهر الأولى من بدء التشغيل.

    تقليل الانبعاثات الكربونية

      وأوضح الكيومي أن المحطة لن توفر فقط كمية كبيرة من الغاز وتقليل انبعاثات الكربون بنحو 340 ألف طن سنويًا ، ولكنها ستتحول أيضًا إلى الطاقة المتجددة وتخطي مرحلة التخطيط لبدء المشروع.

    رؤية عمان 2040

    وأوضح الرئيس التنفيذي للشركة العمانية لشراء الطاقة والمياه أن المشروع يفيد أولويات الدولة التي حددتها رؤية عمان 2040 لحماية البيئة وتنمية الموارد الطبيعية وإشراك القطاع الخاص. سيكون نجاح هذا المشروع نقطة تحول لإطلاق مشاريع أخرى مماثلة في مجال الطاقة المتجددة.

    وكشف الكيومي أن المشروع هو أول محطة للطاقة الشمسية يتم توصيلها بالشبكة الرئيسية ، والتي ستعمل على توفير الطاقة لنحو 50 ألف منزل سنويًا وتقليل انبعاثات الكربون ، وهو مثال آخر على قدرة السلطنة على جذب الاستثمار الأجنبي المباشر.

    مدة تنفيذ المشروع

      قال محمد أبو نيان ، رئيس مجلس إدارة أكوا باور (الوكالة المنفذة للمشروع) ، إنه على الرغم من وباء كورونا ، تم تسليم مشروع إبلي للطاقة الشمسية في وقت قياسي خلال 13 شهرًا ويقال إنه كبير جدًا. وتشير إلى أن المشروع تم تنفيذه بأيد عمانية ومديرين تنفيذيين.

      وأضاف أن المشروع تم تنفيذه بإجراءات بيئية وصحية وسلامة ممتازة ، وتم تنفيذه لأكثر من 5 ملايين ساعة دون إصابات مهنية ، وفي ذروة طاقته الإنتاجية ، سيخدم المشروع ما يقرب من 50000 أسرة ، ويمكن أن يولد طاقة كافية. تزويدهم بالكهرباء.

    المطور  (أكوا باور)

     (أكوا باور) هي شركة سعودية تنشط في السلطنة منذ عام 2011 ، والمشروع هو الثامن في السلطنة في مشاريع الطاقة ، بإجمالي استثمارات في عمان حتى تاريخه حوالي 2.6 مليار دولار.

    أهداف سلطنة عمان من الطاقة المتجددة

      تهدف عمان إلى زيادة مساهمة الطاقة المتجددة إلى 11٪ من إنتاج الكهرباء بحلول عام 2023 وإلى 30٪ بحلول عام 2030

    المصادر

    https://acwapower.com/ar/projects/ibri-2-pv-ipp/

    https://apsr.om/pdfs/news/shams-al-dhahirah-notice.pdf

    https://omanpwp.om/new/pages.aspx?Pid=136