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Nuclear Power Saudi Arabia’ Uranium Mining began

Nuclear Power in Saudi Arabia
(Updated October 2017)

  • Saudi Arabia plans to construct 16 nuclear power reactors over the next 20-25 years at a cost of more than $80 billion.
  • It projects 17 GWe of nuclear capacity by 2040 to provide 15% of the power then, along with over 40 GWe of solar capacity.
  • There are also plans for small reactors for deslination.
In December 2006 the six member states of the Gulf Cooperation Council (GCC) – Kuwait, Saudi Arabia, Bahrain, the United Arab Emirates (UAE), Qatar and Oman – announced that the Council was commissioning a study on the peaceful use of nuclear energy. France agreed to work with them on this, and Iran pledged assistance with nuclear technology.

Together they produce 636 TWh per year (2015), almost all from oil and gas and with significant annual demand growth. They have total installed capacity of over 90 GWe, with a common grid apart from Saudi Arabia, though with negligible import and export. There is also a large demand for desalination, currently fuelled by oil and gas.

In February 2007 the six states agreed with the IAEA to cooperate on a feasibility study for a regional nuclear power and desalination programme, with Saudi Arabia leading the investigation.

Saudi electricity
Saudi Arabia’s population has grown from 4 million in 1960 to over 31 million in 2016. It is the main electricity producer and consumer in the Gulf States, with 338 TWh gross production in 2015, 150 TWh from oil and 189 TWh from gas. It consumes over one-quarter of its oil production, and while energy demand is projected to increase substantially, oil production is not, and by 2030 a large proportion will be consumed domestically, much of it for electricity generation. Its per capita consumption is about 9000 kWh/yr, heavily subsidised.

Generating capacity is over 30 GWe. Demand is growing by 8-10% per year and peak demand is expected to be 70 GWe by 2020 and 120 GWe by 2032, driven partly by desalination increase. However, in October 2015 the King Abdullah City for Atomic and Renewable Energy (KA-CARE) said: “The annual increase in domestic demand for energy ranges now between 6% and 8%. Forecasts indicate that the Kingdom will have to increase its generated power by 80 GWe by 2040." Saudi Arabia is unique in the region in having 60 Hz grid frequency, which severely limits the potential for grid interconnections – it has no electricity import or export.

The Ministry of Water & Electricity (MOWE) is broadly responsible for power and desalination in the country.

It had plans to install 24 GWe of renewable electricity capacity by 2020, and 50 GWe by 2032 or 2040, and was looking at the prospects of exporting up to 10 GWe of this to Italy or Spain during winter when much generating capacity is under-utilised (cooling accounts for over half the capacity in summer). The 50 GWe in 2032 (later: 2040) was to comprise 25 GWe CSP, 16 GWe solar PV, 4 GWe geothermal and waste (together supplying 150-190 TWh, 23-30% of power), complementing 18 GWe nuclear (supplying 131 TWh/yr, 20% of power), and supplemented by 60.5 GWe hydrocarbon capacity which would be little used (c10 GWe) for half the year. The nuclear target date has now been put back to 2040. In 2016 renewables targets were scaled back from 50% to 10% of electricity (by 2040?) as plans shifted more to gas, so that it would increase its share from 50% to 70%.

In July 2017 the cabinet approved the establishment of the 'National Project for Atomic Energy', and new financial and administrative regulations for KA-CARE.

Saudi desalination
The Saline Water Conversion Corporation (SWCC) increased its desalinated water output in 2014 by 10%, to more than 1.1 billion cubic metres. The country continues to install huge desalination capacity, much of it thermal MSF and MED, but a lot is reverse osmosis (RO), driven by electricity.

It is expanding its Yanbu desalination plant to supply the Medina region. Phase 1 is a 146,000 m3/d hybrid plant, mostly MSF using heat recovered from a gas turbine power plant, but with two RO units. Phase 2 upgrades this and adds a 68,000 m3/day MED plant from Doosan using the heat from an associated 690 MWe power plant, all costing over $1 billion. It will be the world's largest MED plant. Doosan will also build Yanbu 3, a 550,000 m3/day MSF plant due for completion in 2016. A 600,000 m3/d RO plant is planned at Rabigh in the west.

The world’s largest thermal desalination plant is Saudi Arabia’s 1,025,000 m3/d Ras Al Khair (Ras Azzour) MSF project northwest of Jubail, costing SAR 27 billion ($7.2 billion) and built by Doosan. The project includes a 2.6 GWe power plant. The hybrid desalination facility has a capacity of 727,000 m3/d multi-stage flash (MSF) evaporation and 307,000 m3/d RO membrane filtration. It will supply water from the Gulf to 3.5 million people in the Riyadh area. The 880,000 m³/d Shoaiba 3 plant was formerly the largest. Veolia has a $402 million contract to build a 178,600 m3/d ultrafiltration and RO plant for Marafiq at the $19.3 billion Sadara petrochemical complex, to come on line in mid-2015. The water will be for two cooling towers and as boiler feedwater.

The first of three phases of the King Abdullah Solar water initiative were expected to be operating by the end of 2013. Phase 1 involves construction of two solar plants which will generate 10 MW of power for a 30,000 m3/d reverse-osmosis (RO) desalination plant at Al Khafji, near the Kuwait border. Phase 2 will involve construction of a 300,000 m3/d desalination plant over three years. The third phase aims to implement the solar water initiative throughout Saudi Arabia, with the eventual target of seeing all the country's desalination plants powered by solar energy by 2020. One of the main objectives of this initiative under King Abdullah City for Science & Technology (KACST) is to desalinate seawater at a cost of less than Riyal 1.5/m3 (US$ 0.40/m³) compared with the current cost of thermal desalination, which KACST says is in the range Riyal 2.0-5.5/m³ (US$ 0.53-1.47/m³), and desalination by RO, which is Riyal 2.5-5.5/m3 (US$ 0.67-1.47/m3) for a desalination plant producing 30,000 m3/d.

Saudi Arabia's General Establishment for Water Desalination (GEWD) is, over the four years to 2019, implementing new projects with a total production capacity of up to 2.5 million m3/d in the Makkah region and the eastern province.

Saudi nuclear power plans: large units
In August 2009 the Saudi government announced that it was considering a nuclear power program on its own, and in April 2010 a royal decree said: "The development of atomic energy is essential to meet the Kingdom's growing requirements for energy to generate electricity, produce desalinated water and reduce reliance on depleting hydrocarbon resources." The King Abdullah City for Atomic and Renewable Energy (KA-CARE) was set up in Riyadh to advance this agenda as an alternative to oil and to be the competent agency for treaties on nuclear energy signed by the kingdom. It is also responsible for supervising works related to nuclear energy and radioactive waste projects.

In June 2010 it appointed the Finland- and Swiss-based Poyry consultancy firm to help define "high-level strategy in the area of nuclear and renewable energy applications" with desalination. In November 2011 it appointed WorleyParsons to conduct site surveys and regional analysis to identify potential sites, to select candidate sites then compare and rank them, and to develop technical specifications for a planned tender for the next stage of the Saudi nuclear power project. Three sites were short-listed as of September 2013: Jubail on the Gulf; and Tabuk and Jizan on the Red Sea. The Nuclear Holding Company was being set up in 2013.

In June 2011 the coordinator of scientific collaboration at KA-CARE said that it plans to construct 16 nuclear power reactors over the next 20 years at a cost of more than 300 billion riyals ($80 billion). These would generate about 20% of Saudi Arabia's electricity. Smaller reactors such as Argentina’s CAREM are envisaged for desalination. An April 2013 timeline showed nuclear construction starting in 2016.

In April 2013 KA-CARE projected 17 GWe of nuclear capacity by 2032 of total 123 GWe, with 16 GWe solar PV, 25 GWe solar CSP (to provide for heat storage), and 4 GWe from geothermal, wind and waste. About half the capacity in 2032 would still be hydrocarbon, with one-third solar following investment in that of some $108 billion. In addition 9 GWe of wind capacity would be used for desalination. In January 2015 the nuclear target date was moved to 2040.

In September 2013 both GE Hitachi Nuclear Energy and Toshiba/ Westinghouse signed contracts with Exelon Nuclear Partners (ENP), a division of Exelon Generation, to pursue reactor construction deals with KA-CARE. GEH is proposing its ABWR and ESBWR, while Toshiba/ Westinghouse is proposing the AP1000 and its ABWR version. Areva and EdF have signed a number of agreements with Saudi companies and universities, and EdF signed an agreement with Saudi Arabia's Global Energy Holding Company (GEHC) for the creation of a joint venture whose first task will be to carry out feasibility studies for an EPR reactor in the country.

In January 2015 the government said that its target for 17 GWe of nuclear capacity would be more like 2040.

INVAP (Investigacion Aplicada) from Argentina and state-owned Saudi technology innovation company Taqnia set up a joint venture company, Invania, to develop nuclear technology for Saudi Arabia's nuclear power program, apparently focusing on small reactors such as CAREM (100 MWt, 27 MWe) for desalination. Taqnia is the technology arm of the Public Investment Fund.

In January 2016 KA-CARE signed an agreement with China Nuclear Engineering Corporation (CNEC) to build a high-temperature reactor (HTR) in the country, based on the HTR-PM now under construction in China by CNEC. A further cooperation agreement to this end, including localization of the supply chain and undertaking a feasibility study, was signed in March 2017. In May 2017 a joint working group commenced a formal feasibility study for the project, with a view to submitting it to the government later in 2017. In August 2017 China Nuclear Engineering & Construction Group (CNEC) and Saudi Technology Development Corporation signed an agreement for a feasibility study on using high temperature reactors for seawater desalination. The IAEA also reports a feasibility study on HTRs providing heat for the petro-chemical industry in Saudi Arabia.

[paste:font size="5"]Uranium
In March and August 2017 China National Nuclear Corporation (CNNC) and the Saudi Geological Survey signed agreements on cooperation on the exploration of uranium. CNNC said it would explore nine potential areas for uranium resources in Saudi Arabia over the next two years.

Regulation & safety
The Saudi Arabian Atomic Regulatory Authority (SAARA) was set up to commence activities early in 2014. In May 2014 KA-CARE signed an agreement with the Finnish Radiation and Nuclear Safety Authority (STUK) to assist in this by recruiting and training personnel and establishing safety standards. In November 2016 KA-CARE signed an agreement with South Korea’s Nuclear Safety and Security Commission (NSSC) to promote cooperation in “regulating nuclear safety, safeguards and physical protection, radiation protection and relevant research, as well as development in a manner to serve atomic energy programs in the Kingdom of Saudi Arabia," according to KA-CARE. NSSC said that “the platform of cooperation” was “expected to play an imperative role in facilitating bilateral cooperations in the region."

International agreements
A nuclear cooperation agreement with France in early 2011 seemed likely to advance French interests in the country’s plans. In June 2015 France signed an agreement to undertake a feasibility study for building two EPR nuclear power reactors. Additional agreements were signed on nuclear safety training as well as on waste disposal.

A mid-2011 nuclear cooperation agreement with Argentina was evidently related to smaller plants for desalination and the subsequent Invania joint venture.

A November 2011 agreement with South Korea called for cooperation in nuclear R&D, including building nuclear power plants and research reactors, as well as training, safety and waste management. In June 2013 Kepco offered support for the localization of nuclear technology, along with joint research and development of nuclear technologies if Saudi Arabia purchases South Korean reactors. In September 2015 further contracts were signed, which aim at building a partnership to establish knowledge infrastructure in SMART technology fields (see March 2015 SMART agreement above).

A January 2012 agreement with China relates to nuclear plant development and maintenance, research reactors, and the provision of fabricated nuclear fuel. A further agreement with CNNC was signed in August 2014, and in August 2016 KA-CARE signed an agreement with CNNC for human resource development.

A June 2015 agreement with Rosatom provided for cooperation in the field of nuclear energy, including: the design, construction, operation and decommissioning of nuclear power and research reactors, including desalination plants and particle accelerators; the provision of nuclear fuel cycle services, including nuclear power plants and research reactors; the management of used nuclear fuel and radioactive waste management; the production of radioisotopes and their application in industry, medicine and agriculture; and the education and training of specialists in the field of nuclear energy. A further programme of cooperation was signed in October 2017 between KA-CARE and Rosatom, focused on small and medium reactors, and on building a new research reactor.

In October 2015 KA-CARE signed a nuclear cooperation agreement with Hungary. In October 2016 it signed a nuclear cooperation agreement with Kazakhstan, focused on fuel supply.

In March 2017 an agreement between KA-CARE and Jordan Atomic Energy Commission (JAEC) was signed for a feasibility study on the construction of two small modular reactors (SMRs) in Jordan for the production of electricity and desalinated water. No particular technology was mentioned.

KA-CARE earlier said it was negotiating with Czech Republic, UK and the USA regarding "further cooperation". A full nuclear cooperation agreement with the USA is generally seen as vital to proceeding with Saudi nuclear power plans.

Saudi Arabia has had a safeguards agreement in force with the IAEA since 2009, but no Additional Protocol.

Notes & references
Muhammad Garwan, K.A.CARE, Nov 2013, Sustainable Energy Mix for Saudi Arabia

KAERI 3/9/15, KAERI and K.A.CARE signed SMART PPE Agreement

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Saudi Arabia pushes ahead with nuclear, renewable power

Kingdom’s first large scale nuclear plant to be commissioned in 2027

Published: 18:59 January 15, 2018
Fareed Rahman, Senior Reporter

Abu Dhabi: Saudi Arabia is pushing ahead with its renewables and nuclear power projects to meet rapidly growing power demand, top government officials from the kingdom said in Abu Dhabi.

The country will build a nuclear plant comprising two reactors with a total capacity of 3.2 gigawatts, Abdul Malek Al M. Saberi, a senior official from King Abdullah City for Atomic and Renewable Energy (KACARE) told reporters on the sidelines of World Future Energy Summit in Abu Dhabi on Monday.

“We have received proposals from five countries including China, Russia, US, South Korea and France to build the nuclear power plant. We will announce the winner at the end of the year and will sign a joint venture in the early 2019 to build the plant,” Al Saberi said.

The kingdom is aiming to commission the nuclear plant by 2027, he said adding that Saudi Arabia will be the second country in the region to have a nuclear power plant after the UAE.

When asked about investment plans, he said financing will be discussed with the bidder and declined to give the figure.

The country is also building two small reactors, with a capacity of 120 megawatts each, which are expected to be commissioned by 2023. Nuclear energy will contribute about 5 per cent of the total energy mix once the nuclear reactors become operational.

“There is an annual electricity demand [growth] of more than 7 per cent in Saudi Arabia due to growing population and industries,” Al Saberi said.

“With nuclear energy we are going to rely less on hydrocarbons for electricity generation and the nuclear energy programme will also give a boost to industrial sector growth and diversification of the economy.”

Due to a plunge in global oil prices, Saudi Arabia — along with other countries — is focusing on diversifying its economy to generate extra revenue.

The country is planning to create thousands of new jobs and set up new industries as part of its vision 2030, launched by Saudi crown prince Mohammad Bin Salman.

Saudi Arabia is also looking at wind, as well as solar plants, to contribute to the country’s energy mix.

It is targeting 9.5 gigawatts of wind and solar energy by 2023.


“We will not stop and will go beyond that. We are optimistic to achieve the target. The government is supporting the programme in a big way,” said Asem Othman Alkadi from Renewable Energy Project Development Office in Saudi Arabia.

Geothermal and waste to energy are the other sources of energy which the Kingdom is targeting in future, he added.

Saudi Arabia, one of the largest exporters of oil in the world is planning to invest $30 to $50 billion in the coming years up to 2023 in renewable energy projects.


http://gulfnews.com/business/renewa...-ahead-with-nuclear-renewable-power-1.2157535

Some quick calculations;

1 Gigawatt equals around 500 utility-scale (average size of 2 MV) wind turbines!

Or 4.6 million PV panels (average panel size of 295 watts)!
 
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Russia's Rosatom to bid for Saudi nuclear project

09-07-2018 Argaam

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Russian state-owned Rosatom has been shortlisted to bid for Saudi Arabia’s first nuclear project, it said in a statement emailed to Argaam on Monday.

The company will offer its Generation 3+ reactor technology, the VVER-1200, which is equipped with advanced safety systems and complies with the most stringent international safety and security standards.

Currently, Rosatom is working on 35 nuclear power plant projects in 11 countries outside Russia, the statement added.

Last week, a consortium led by state-owned Korea Electric Power Corp said it has been shortlisted to bid for the Kingdom's nuclear project.

Saudi Arabia is considering building 17.6 gigawatts of nuclear capacity by 2032, the equivalent of about 17 reactors.


https://www.argaam.com/en/article/articledetail/id/559033

Speaking about minerals.


Saudi Arabia: Minerals Geological Storage Exceeds $1.3 Trillion

Monday, 9 July, 2018 - 09:30

Ministry of Energy, Industry and Mineral Resources in Saudi Arabia announced Sunday the completion of the adjusted mining investment system that allows investors and public sector to benefit from the promising investment opportunities in this vital sector in the country.

Saudi Energy Minister Khalid al-Faleh stressed the importance of mineral wealth as one of the most important activities for achieving Saudi Vision 2030 in addition to what it includes from promising future chances that contribute to diversifying the income sources and reinforcing the national economy, not to mention supporting the goals related to developing domestic industry through providing raw material that represents the foundation of any advanced industrial economy.

The geologic storage of minerals in Saudi Arabia exceeds SAR4.9 trillion (USD1.3 trillion), said Faleh.

He added that this strategy seeks to increase minerals production to reach the double of domestic production and to make the mining sector the third pillar for the Saudi industry in addition to petroleum, gas and petrochemical industries.

The adjusted mining investment system is anticipated to increase investment in mining field and reinforce the working environment as well as activate the private sector role and facilitate procedures of getting licenses of discovering and mining within a period that is similar to the best international standards.

The ministry called on those interested to get to know the adjusted system and express their remarks regarding the project starting Sunday and for a period of one month through the website.

The ministry added that it is still available for investors and entrepreneurs to invest good opportunities offered by Saudi Vision 2030 in the mining sector.

https://aawsat.com/english/home/art...nerals-geological-storage-exceeds-13-trillion

It's only a few select minerals (gold, zinc, copper, tin-tungsten,phosphate, gypsum etc.) that have been studied (where surveys have been conducted) so this staggering number (1.3 trillion USD) is not the totality.

Anyway.





:lol:

BTW the uranium reserves globally, KSA is estimated to be home to 5-10% of all uranium reserves.

https://english.mubasher.info/news/3251245/Saudi-Arabia-owns-5-of-global-uranium-reserves

Mahd adh Dhahab


Mahd adh Dhahab gold deposit geologic map


Mahd adh Dhahab gold mining cross section

The Mahd adh-Dhahab (Arabic: مَـهـد الـذّهـب‎, "Cradle of (the) Gold"), is the leading gold mining area in the Arabian Peninsula. It is located in the Province of Al-Madinah, in the Hejazi region of Saudi Arabia.

Gold was first mined in Arabia c. 3,000 BC. A second period of activity was during the Islamic Abbasid period between 750 and 1258 AD. The latest activities by Saudi Arabian Mining Syndicate began in 1936 using both open-pit and underground mines at Mahd adh-Dhahab. The Saudi Arabian Directorate General of Mineral Resources carried out further gold exploration in the 1970s, following the 1971 suspension of the US$-gold exchange rate and the consequent rise in value of the metal. Gold mining is done today by the Saudi Arabian Mining Company.

Antiquity
There is a possibility that the Cradle of Gold is mentioned in the Biblical story of the Garden of Edenin The Book of Genesis. - "And a river went out of Eden to water the garden; and from thence it was parted, and became into four heads. The name of the first is Pishon: that is it which compasseth the whole land of Havilah, where there is gold; And the gold of that land is good: there is bdellium and the onyx stone." Research by archaeologists Juris Zarins of Missouri State University and Farouk El-Baz of Boston University indicates that the Pishon River may be the now dried up river bed that once flowed 600 miles north east from the Mahd adh-Dhahab area of the Hejaz c. 3000 BC.[1]

The site has also been identified with "King Solomon's Gold Mine."[2] Geologists have found a vast abandoned gold mine. Among their finds are huge quantities of waste rock, an estimated million tons, left by the ancient miners, still containing traces of gold. Thousands of stone hammers and grindstones used to extract the gold from the ore litter the mine slopes. Robert W. Luce said: "Our investigations have now confirmed that the old mine could have been as rich as described in biblical accounts."

References
  1. Jump up ^ C.A. Salabach at Focus Magazine Archived 2012-06-25 at the Wayback Machine.
  2. Jump up ^ https://news.google.com/newspapers?...,1026966&dq=saudi+arabia+cradle+of+gold&hl=en
https://www.woodmac.com/reports/metals-mahd-adh-dhahab-gold-mine-16320130

https://en.wikipedia.org/wiki/Mahd_adh_Dhahab

A report from 1976:

Solomon’s Gold Mine Believed Found


A mine in western Saudi Arabia is now believed to have been the principal producer of King Solomon’s gold, according to a new study by scientists of the U.S. Geological Survey (USGS), Department of the Interior, working with their counterparts in the Saudi Arabian Directorate General of Mineral Resources (DGMR).

Although many mines scattered throughout the region may have contributed gold to King Solomon’s treasuries, the principal producer and most likely candidate to be the fabled biblical Ophir is the Mahd adh Dhahab (Cradle of Gold) mine, located about midway between Mecca and Madina, the scientists believe.

The conclusion was reached after a four-year (1972–75) detailed geologic, geochemical, and geophysical investigation of the Mahd adh Dhahab mining district by the USGS-DGMR team that also found indications of additional gold-bearing zones.

Dr. Robert W. Luce, geologist, USGS National Center, Reston, Va., and member of the U.S.-Saudia Arabian study team, said, “Mining engineers who operated the Mahd adh Dhahab gold-silver mine during 1939–54 in Saudi Arabia suspected that it was the site of biblical Ophir. Our investigations have now confirmed that the old mine could have been as rich as described in biblical accounts and, indeed, is a logical candidate to be the lost Ophir.

“In fact, we believe that the mining district still contains workable deposits of gold, silver, and other metals,” Luce said. “Our geochemical sampling, for example, indicates that the mineralized zones continue into an area that has not been productive in the past. Shallow diamond drilling in this new area has outlined a mineralized zone with a potential gold resource equal in size and grade to the ore bodies mined during the period 1939–54.”

BSP 5:4 (Autumn 1976) p. 114

bspa05d-9.jpg


Map of the Near East showing the location of Mahd adh Dhahab.

Luce and USGS scientists Ralph J. Roberts, Ronald G. Worl, Richard H. Blank, and Mark E. Gettings, worked in collaboration with Abdulaziz Bagdady, Habib Merghelani, and Abdul-Rahman Gazzaz of the DGMR.

A prominent mining company has expressed interest in conducting further exploration in this area and has applied to the Saudi Arabian government for an exploration license.

One of the intriguing questions is how this fabulously rich area was “lost” in the first place. The Bible reports that King Solomon brought to Jerusalem from Ophir a total of 1,086 talents of gold (1 Kings 9:26–28 and 10:14

http://www.galaxie.com/article/bsp05-4-02

Diamonds were discovered not that long ago in Hijaz as well.

Gem of a find: KSA may have diamond mines | Front Page | Saudi Gazette



:lol:
 
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Saudi Arabia’s path to nuclear power
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King Abdullah City for Atomic and Renewable Energy in Riyadh.
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Barakah, the UAE’s first nuclear power plant.
Updated 05 August 2018
CALINE MALEK
August 04, 2018
  • Saudi Arabia has to find ways to diversify and increase its power production capacity for economic growth and development
  • Saudi Arabia is selecting finalists from five countries — the US, China, Russia, France and South Korea
DUBAI: Faced with surging energy demand for economic growth, Saudi Arabia is turning to nuclear power to meet a twin challenge — how to diversify its electricity-generating mix while reducing reliance on fossil fuels. And with electricity demand in the country growing by 8 to 10 percent annually, compared with less than 1 percent in Europe, experts say the move is timely. Last week, an International Atomic Energy Agency (IAEA) team of experts concluded a 12-day mission to the Kingdom to review its development of infrastructure for a nuclear power program. The review, which ended on July 24, was carried out at the invitation of the Saudi government. “Nuclear is an important way to meet the fast-growing demand for energy in the region, taking into consideration a wish to diversify the energy sources and not rely solely on oil and gas,” said John Bernhard, former Danish ambassador to the IAEA.
“Besides, the use of nuclear power is a significant element in an energy strategy which considers the need to reduce carbon dioxide emissions and implement commitments concerning climate change. Renewable energy sources, such as wind and solar, are beneficial from a climate change point of view, but will often not be sufficient to cover large energy demands.”
The Kingdom plans to build two large nuclear power reactors as part of a program delivering as many as 16 nuclear power plants over the next 20 to 25 years at a cost of more than $80 billion. It has projected 17 gigawatts (GW) of nuclear capacity by 2032 to provide 15 percent of the power then, along with more than 40 GW of solar capacity.
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So far, Saudi Arabia has identified two possible sites for power stations, on the Gulf coast at Umm Huwayd and Khor Duweihin.
Plans for small reactors for desalination are also well advanced. “IAEA missions are of crucial importance when preparing for the introduction of nuclear power programs, especially in so-called newcomer states — those with little or no experience regarding nuclear power,” Bernhard said.
“IAEA experts can provide useful advice technically and with regard to nuclear safety and security.
This is of great value both for the nuclear newcomer and the international community.”cSaudi Arabia is selecting finalists from five countries — the US, China, Russia, France and South Korea —that it invited earlier this year to bid on a project to build the two plants. The selection of a winning bid and the signing of contracts are expected by the end of 2018.
“Saudis have recognized that it is important for them to develop a nuclear power program,” said Lady Barbara Judge, former head of the UK Atomic Energy Authority. “The days of oil and gas are waning, and it is not appropriate for any country to rely on one source of energy — more and more of the world’s population is worrying about climate change.”
Nuclear is a carbon-free techno-logy that provides continuous generation. “Even if a country is investing heavily in renewables, they have the problem of only being available when the sun shines and the wind blows,” said Judge, who is a member of the International Advisory Board for the development of nuclear energy in the UAE.
“Accordingly, back-up generation is needed to assure a continuous supply of energy. To me, it seems the Saudis, like Abu Dhabi, are perfectly situated to build a new nuclear power plant — they have the backing of the government and the funds to build a first-class plant, and they understand that it is inappropriate today to rely solely on oil.
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“They also have the resources to bring in international experts and to conduct an effective public outreach program to educate the population about the benefits of nuclear energy.”
Judge said that IAEA missions provide an assurance that the construction, operation and safety culture will be of the highest standard. “The IAEA is an independent appraiser and adviser, and it helps countries to appropriately plan and design their new project.”
The move falls in line with the Kingdom’s Vision 2030, which is based on diversifying its economy away from oil and gas. And with desalination and residential cooling set as the two largest uses of power, and desalinated water demand expected to double in the next decade, experts say that it is more profitable for the country to sell oil and gas while using alternative resources, such as nuclear, for water desalination.
Environmentally, nuclear is also expected to significantly reduce carbon dioxide emissions.
“Saudi Arabia has to find ways to diversify and increase its power production capacity for economic growth and development,” said Dr. Peter Bode, former associate professor in nuclear science and technology at the Delft University in the Netherlands.
“Nuclear power is one of the options in the power mix that could also contain wind energy and solar, but these systems cannot take over the major role in the power mix. Moreover, these are also somehow much more vulnerable to damage, like sabotage, and even the effects of climate change.”
He said nuclear power is a proven technology with high reliability and safety — a nuclear power plant typically operates for about 60 to 70 years, and provides jobs for about 1,000 people over that period. “Wind and solar energy are options for local and domestic energy production, but not to provide the needs of industry.”
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In 2010, a Saudi royal decree said that the development of atomic energy is essential to meet the Kingdom’s growing requirements for energy. The country formed the King Abdullah City for Atomic and Renewable Energy (KA-CARE).
In July last year, the Cabinet approved the establishment of the National Project for Atomic Energy, and new financial and administrative regulations for KA-CARE, which was set up in Riyadh.
Several years ago, a study by the IAEA explored the economics of nuclear power in the Middle East.
“As long as the future international oil market price was above $60 to $65 per barrel, nuclear power made sense,” said Holger Rogner, an Atomic Reporters director, energy economist and former head of the IAEA’s energy planning section.
“The domestic price of oil used for electricity generation and desalination is highly subsidized, so if they replace electricity generation with nuclear power, and sell this oil at market prices abroad, the difference in revenue would basically pay for the nuclear power plant. There are clear thresholds when things make sense,” he said.

http://www.arabnews.com/node/1351311/saudi-arabia

@The SC
 
.
There is a joke about a unmarried guy who at the age 20 decided and announced that he is gonna name his son Abdullah. Now, he's 40 and still single.

Iran is that guy.
Well joke is on you 'cause no one ,in this case Iran, never decided or announced that it is gonna name its son Abdullah. it's you whom think in this way.
Well there is another joke about a married guy whom decided and announced that he is gonna name his son Abdullah and he did but still live in insecurity ...
Pakistan is that guy.
 
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Saudi Arabia’s path to nuclear power
1273686-954086674.jpg

1 / 3
King Abdullah City for Atomic and Renewable Energy in Riyadh.
1273696-1361334487.jpg

2 / 3
1273691-2070618149.jpg

3 / 3
Barakah, the UAE’s first nuclear power plant.
Updated 05 August 2018
CALINE MALEK
August 04, 2018
  • Saudi Arabia has to find ways to diversify and increase its power production capacity for economic growth and development
  • Saudi Arabia is selecting finalists from five countries — the US, China, Russia, France and South Korea
DUBAI: Faced with surging energy demand for economic growth, Saudi Arabia is turning to nuclear power to meet a twin challenge — how to diversify its electricity-generating mix while reducing reliance on fossil fuels. And with electricity demand in the country growing by 8 to 10 percent annually, compared with less than 1 percent in Europe, experts say the move is timely. Last week, an International Atomic Energy Agency (IAEA) team of experts concluded a 12-day mission to the Kingdom to review its development of infrastructure for a nuclear power program. The review, which ended on July 24, was carried out at the invitation of the Saudi government. “Nuclear is an important way to meet the fast-growing demand for energy in the region, taking into consideration a wish to diversify the energy sources and not rely solely on oil and gas,” said John Bernhard, former Danish ambassador to the IAEA.
“Besides, the use of nuclear power is a significant element in an energy strategy which considers the need to reduce carbon dioxide emissions and implement commitments concerning climate change. Renewable energy sources, such as wind and solar, are beneficial from a climate change point of view, but will often not be sufficient to cover large energy demands.”
The Kingdom plans to build two large nuclear power reactors as part of a program delivering as many as 16 nuclear power plants over the next 20 to 25 years at a cost of more than $80 billion. It has projected 17 gigawatts (GW) of nuclear capacity by 2032 to provide 15 percent of the power then, along with more than 40 GW of solar capacity.
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So far, Saudi Arabia has identified two possible sites for power stations, on the Gulf coast at Umm Huwayd and Khor Duweihin.
Plans for small reactors for desalination are also well advanced. “IAEA missions are of crucial importance when preparing for the introduction of nuclear power programs, especially in so-called newcomer states — those with little or no experience regarding nuclear power,” Bernhard said.
“IAEA experts can provide useful advice technically and with regard to nuclear safety and security.
This is of great value both for the nuclear newcomer and the international community.”cSaudi Arabia is selecting finalists from five countries — the US, China, Russia, France and South Korea —that it invited earlier this year to bid on a project to build the two plants. The selection of a winning bid and the signing of contracts are expected by the end of 2018.
“Saudis have recognized that it is important for them to develop a nuclear power program,” said Lady Barbara Judge, former head of the UK Atomic Energy Authority. “The days of oil and gas are waning, and it is not appropriate for any country to rely on one source of energy — more and more of the world’s population is worrying about climate change.”
Nuclear is a carbon-free techno-logy that provides continuous generation. “Even if a country is investing heavily in renewables, they have the problem of only being available when the sun shines and the wind blows,” said Judge, who is a member of the International Advisory Board for the development of nuclear energy in the UAE.
“Accordingly, back-up generation is needed to assure a continuous supply of energy. To me, it seems the Saudis, like Abu Dhabi, are perfectly situated to build a new nuclear power plant — they have the backing of the government and the funds to build a first-class plant, and they understand that it is inappropriate today to rely solely on oil.
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“They also have the resources to bring in international experts and to conduct an effective public outreach program to educate the population about the benefits of nuclear energy.”
Judge said that IAEA missions provide an assurance that the construction, operation and safety culture will be of the highest standard. “The IAEA is an independent appraiser and adviser, and it helps countries to appropriately plan and design their new project.”
The move falls in line with the Kingdom’s Vision 2030, which is based on diversifying its economy away from oil and gas. And with desalination and residential cooling set as the two largest uses of power, and desalinated water demand expected to double in the next decade, experts say that it is more profitable for the country to sell oil and gas while using alternative resources, such as nuclear, for water desalination.
Environmentally, nuclear is also expected to significantly reduce carbon dioxide emissions.
“Saudi Arabia has to find ways to diversify and increase its power production capacity for economic growth and development,” said Dr. Peter Bode, former associate professor in nuclear science and technology at the Delft University in the Netherlands.
“Nuclear power is one of the options in the power mix that could also contain wind energy and solar, but these systems cannot take over the major role in the power mix. Moreover, these are also somehow much more vulnerable to damage, like sabotage, and even the effects of climate change.”
He said nuclear power is a proven technology with high reliability and safety — a nuclear power plant typically operates for about 60 to 70 years, and provides jobs for about 1,000 people over that period. “Wind and solar energy are options for local and domestic energy production, but not to provide the needs of industry.”
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In 2010, a Saudi royal decree said that the development of atomic energy is essential to meet the Kingdom’s growing requirements for energy. The country formed the King Abdullah City for Atomic and Renewable Energy (KA-CARE).
In July last year, the Cabinet approved the establishment of the National Project for Atomic Energy, and new financial and administrative regulations for KA-CARE, which was set up in Riyadh.
Several years ago, a study by the IAEA explored the economics of nuclear power in the Middle East.
“As long as the future international oil market price was above $60 to $65 per barrel, nuclear power made sense,” said Holger Rogner, an Atomic Reporters director, energy economist and former head of the IAEA’s energy planning section.
“The domestic price of oil used for electricity generation and desalination is highly subsidized, so if they replace electricity generation with nuclear power, and sell this oil at market prices abroad, the difference in revenue would basically pay for the nuclear power plant. There are clear thresholds when things make sense,” he said.

http://www.arabnews.com/node/1351311/saudi-arabia

@The SC
Several years ago, a study by the IAEA explored the economics of nuclear power in the Middle East.
“As long as the future international oil market price was above $60 to $65 per barrel, nuclear power made sense,” said Holger Rogner, an Atomic Reporters director, energy economist and former head of the IAEA’s energy planning section.
“The domestic price of oil used for electricity generation and desalination is highly subsidized, so if they replace electricity generation with nuclear power, and sell this oil at market prices abroad, the difference in revenue would basically pay for the nuclear power plant. There are clear thresholds when things make sense,” he said.
 
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nuclear power will always make sence until you do your job and be carefull..

I would not use oil products or gas for power generating its better used elsewhere and sold

and since you have mountains you should have a place for the leftovers of nuclear energy.. the benefits are not only electricity and technology you have much more clean air in combination with wind energy and solar power maybe you could use the overproduced energy for generating water from saltywater like israel :)

water should be a high priority for SA
 
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nuclear power will always make sence until you do your job and be carefull..

I would not use oil products or gas for power generating its better used elsewhere and sold

and since you have mountains you should have a place for the leftovers of nuclear energy.. the benefits are not only electricity and technology you have much more clean air in combination with wind energy and solar power maybe you could use the overproduced energy for generating water from saltywater like israel :)

water should be a high priority for SA

All valuable statements that I agree with.

KSA is actually planning to do just that.

The 16 nuclear power plants (nuclear reactors) that are planned to be built by 2030 (or 2035 at the latest) are part of the energy reforms where renewable energy like solar and wind etc. will play an important role. Gas and oil will not be used to generate energy domestically but rather exported (gas is not exported by KSA at all for this reason).

As for water, yes, but KSA has 1000's of wadis (non-permanent rivers) and is surrounded by water on both sides (some of the longest coastline in the region).

KSA also uses the most advanced seawater desalination plants in the world and much of our water is desalinated seawater. There are still large underground water reserves in KSA and we have many dams in the mountainous regions (mostly South and West) but wastefulness of water is a big problem in KSA and the region as a whole. Wastefulness as a whole. Outdated agricultural techniques etc. Much to improve but the potential is there and a big one.
 
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Saudi Arabia’s nuclear program ‘fundamental to Kingdom’s energy sector’

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Saudi Energy Minister Khalid Al-Falih speaking at the IAEA’s annual conference in Vienna. (SPA)

ARAB NEWS
September 17, 2018

JEDDAH: Saudi Arabia’s atomic energy program is fundamental for developing a sustainable energy sector, a senior minister told the International Atomic Energy Agency on Monday.
The Kingdom plans to start building its first two nuclear power reactors this year and as many as 16 over the next 25 years at a cost of more than $80 billion. The plan is to provide 15 percent of Saudi Arabia’s power from nuclear by 2032.
Speaking at the IAEA’s annual conference in Vienna, Energy Minister Khalid Al-Falih said the atomic reactor projects were were part of the Kingdom’s Vision 2030 to diversify its energy sources to nuclear and renewables.
The program “abides by all international treaties and conventions and best practices, adhering to the highest standards of safety, security and transparency,” Al Falih said.
The minister said Saudi Arabia was committed to the Treaty on the Non-Proliferation of Nuclear Weapons, which calls for nuclear disarmament and stresses the commitment of nuclear power states to share their peaceful technologies with abiding member states.
He also said the Kingdom had called for cooperation with the international community to make the Middle East a nuclear weapons free area.
The US has started to reintroduce heavy sanctions against Iran over its nuclear program, after Donald Trump pulled out of a deal with the country earlier this year to curb its atomic ambitions.
Al-Falih called on the international community to take a more stringent stance against all threats to regional and international security, particularly Iran, given its “alarming efforts to build its nuclear capabilities, in tandem with its increasing acts of sabotage and aggression against other states in the region.”

http://www.arabnews.com/node/1373701/saudi-arabia
 
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Saudis to Prospect for Uranium, Thorium with China – over US Objections
Mar 14, 2019 @ 19:34 DEBKA Weekly


Saudi Arabia is pushing ahead with a geological survey to explore and assess its uranium and thorium resources in the kingdom’s western Hail Province, in the face of US objections. Although this largely agricultural region was always thought to hold small supplies of these substances, Riyadh suddenly perked up of late to its potential after Chinese geologists turned up promising finds.

Hail produces large quantities of dates and fruit and most of the kingdom’s wheat and grain. It has historically derived its wealth as a wayside station on the camel caravan Hajj route to Mecca.

Most of the world’s uranium is found either in northern countries like Canada or Russia or the south in places like South Africa and southern Australia. Jordan is thought to have substantial reserves, up to 65,000 tons of uranium plus the potential to extract 140,000 tonnes from phosphates. Foreign firms have been given mining contracts.

However, DEBKA Weekly’s sources report that Chinese geologists hired by the Saudi government reported that Jordan’s uranium deposits extend south as far as Saudi Arabia’s Hail. Riyadh’s eagerness to co-opt Beijing to the start of its uranium mining project has raised suspicions, especially in Washington, that Saudi Arabia is secretly conducting a nuclear program a lot bigger than suggested by intelligence findings.
The project is going forward as a partnership between the King Abdullah City for Atomic Research and Renewable Energy (KACARE) and China’s National Nuclear Cooperation (CNNC) for the stated aim of “exploring uranium and thorium deposits for peaceful use.”

Last October, the KACARE president Hashim bin Abdullah Yamani said his agency was tasked with “nuclear plans” and proposed to “extract uranium domestically as part of its nuclear program” and a step towards “self-sufficiency in the production of atomic fuel.”

Five months ago, Crown Prince Muhammed bin Salman laid the cornerstone for the kingdom’s first nuclear research reactor. This posed a question: Why does the nation with the world’s largest reserves of oil need nuclear reactors for power? It also raised the suspicion that the Saudis wanted a possible infrastructure for manufacturing plutonium from the nuclear fuel produced by this research reactor.

In past negotiations with the Obama administration, the Saudis firmly refused to relinquish their right to enrich uranium for use as nuclear fuel for their power reactors project. The Trump administration, in contrast, is prepared to countenance uranium enrichment in Saudi Arabia under restrictions, despite strong objections in both houses of congress. Antagonism to Saudi Arabia among US lawmakers remains high over the suspicion that the crown prince engineered the death of the journalist Jamal Khashoggi last year.

Although Riyadh replies that putting nuclear energy to civilian use will free up more of its oil for export, no one doubts that its overriding motivation is in the realm of “security.” The Saudis deeply resent lagging behind Iran’s nuclear efforts and watch with covetous and suspicious eyes the rapid nuclear advances achieved by their ally, the United Arab Emirates. In 2018, the UAE completed the construction of its first civilian nuclear plant. In an agreement with the United States the UAE signed a commitment not to use the reactor for uranium enrichment in return for which it was granted international assistance. The Saudis refuse to undertake this commitment, maintaining that since Iran is allowed to enrich uranium, they too have this right.

Ali Shamkhani, secretary of Iran’s Supreme National Security Council, on Wednesday, March 13, accused regional powers of “spending their petrodollars on suspicious nuclear projects” that could endanger security in the region and the world. He did not name those powers. Those new threats, Shamkhani said, would force Iran to revise its strategy depending on their nature and geography and the needs of “our country and armed forces.” Last month, Iranian Foreign Minister Mohammad Javad Zarif accused the United States of hypocrisy for trying to wreck Iran’s nuclear program while seeking to sell nuclear technology to Saudi Arabia, Tehran’s regional rival. The Saudi government has so far, with unusual stubbornness, refused to turn over to Washington any information on the nuclear program it is running out of King Abdullah City, or explain what Chinese engineers and technicians are doing there. Therefore, the decision to prospect for uranium and thorium in the Hail province has widened the differences between Riyadh and Washington on the nuclear issue. In an effort to bridge the gap, the US was last week reported to be “encouraging Saudi Arabia to consider bids by American companies to build nuclear reactors.” Washington hopes that if US companies like Westinghouse win those contracts, the administration will have access to a much clear picture on what is going on inside the Saudi nuclear program.

https://www.debka.com/saudis-to-prospect-for-uranium-thorium-with-china-over-us-objections/

Saudi Arabia's first nuclear reactor nearly finished, sparking fears over safeguards

https://www.theguardian.com/world/2...early-finished-sparking-fears-over-safeguards

KACARE launches uranium program to train Saudis

http://www.arabnews.com/node/1464706/saudi-arabia

Saudi Arabia owns 5% of global uranium reserves

https://english.mubasher.info/news/3251245/Saudi-Arabia-owns-5-of-global-uranium-reserves

As Saudi Arabia Builds A Nuclear Reactor, Some Worry About Its Motives


Bomb Watchers Twitching as Looser Rules Weighed for Uranium

Countries encouraged to look at extraction from phosphates, providing potential new pathways to the nuclear material used in reactors and weapons

https://www.bloomberg.com/news/arti...xpand-phosphate-link-to-weapons-proliferation

Wa’ad El-Shamal: The capital of global phosphate

http://www.saudigazette.com.sa/article/551114

Wa’ad Al Shamal pivotal in development of KSA’s vast phosphate reserves

http://www.saudigazette.com.sa/arti...elopment-of-KSAsvast-phosphate-reserves?rss=1


Saudi crown prince warns it will build nuclear bomb if Tehran does the same
Prince Mohammed bin Salman is pressing the US to allow Saudi Arabia to enrich uranium in return for choosing American nuclear technology

https://www.theguardian.com/world/2...-iran-nuclear-bomb-threat-mohammed-bin-salman

Saudi missile program expanded with help from China, US intel said to show
Trump administration reportedly withheld information from Congress, raising concern it is tacitly approving move; fears raised Riyadh could be seeking nuclear weapons

https://www.timesofisrael.com/saudi...d-with-help-from-china-us-intel-said-to-show/

Exclusive: US intel shows Saudi Arabia escalated its missile program with help from China

Pakistan

deputy_defense_minister-1-jpg.570938



https://edition.cnn.com/2019/06/05/...udi-arabia-ballistic-missile-china/index.html

Saudi Arabia, China have established ‘comprehensive strategic partnership’

http://www.arabnews.com/node/1534636/saudi-arabia



Saudi Space Agency Begins To Take Shape, Reported $1 Billion Budget In First Year

https://spacewatch.global/2019/04/s...hape-reported-1-billion-budget-in-first-year/

Connect the dots.
 
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I read recently that there might be a solution to thwart the US congress opposition to nuclear ToT for KSA.. the nuclear reactors are going to be built by South Korea using US technologies for support, security, safety, training and so on..So there will be no need to sign the 123 agreement or the gold standard as a matter of fact..So the US will be present .. in a good but restricted way..

@ArabianEmpires&Caliphates
 
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I read recently that there might be a solution to thwart the US congress opposition to nuclear ToT for KSA.. the nuclear reactors are going to be built by South Korea using US technologies for support, security, safety, training and so on..So there will be no need to sign the 123 agreement or the gold standard as a matter of fact..So the US will be present .. in a good but restricted way..

@ArabianEmpires&Caliphates

I would prefer not to have the US involved in any of our future 20 or so nuclear power plants a reactors but rather the likes of China, Russia and as you mention South Korea. If the US are to be involved, the involvement should be as you wrote above.
 
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:lol:

http://millennialreview.org/2019/08...pabilities-with-trump-administration-backing/

https://intpolicydigest.org/2019/08...ile-program-will-heighten-tensions-with-iran/

https://www.aljazeera.com/indepth/o...d-nuclear-arms-race-gulf-190801130430388.html

@The SC

Looks like what I wrote once is happening and what I "suspected" would occur.

by Baset Asaba
Aug 13, 2019

Advanced Nuclear Reactors Hold Promise Of Clean Energy For Gulf Countries
The case for investing in advanced nuclear reactors as an alternative energy source is compelling. Russia and China have an advantage in the development of advanced reactors, thanks to state financial backing
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Getty Images


Saudi Arabia will be one of a handful of countries expected to receive state-of-the-art advanced nuclear reactors from China and Russia, according to a new report.

The report, “Advancing Nuclear Innovation: Responding to Climate Change and Strengthening Global Security,” was commissioned by the Global Nexus Initiative. This is a project established by the Partnership for Global Security, a Washington DC-based think tank, and the Nuclear Energy Institute (NEI), which represents the US nuclear energy industry. It is a publicly available assessment of the non-proliferation, security, and geopolitical characteristics of advanced nuclear-reactor technology.

The report, which took 16 experts over a year to produce, says that advanced reactors will likely be ready for deployment within one to two decades, setting the stage for major technological competition among powerful geopolitical rivals.




Although complicated by politics, the economic case for countries to invest in civil nuclear reactors as part of a mix of alternative energy sources is compelling. The Global Nexus Initiative report says the international community should strive to make sure that any race for market share among geopolitical competitors strengthens nuclear governance rather than weakens it.

“In order to meet the energy and climate challenges which the world faces, advanced reactors should be ready for deployment in the 2025 to 2030 framework,” said John Bernhard, a senior associate at the Partnership for Global Security who earlier served as Denmark’s ambassador to the International Atomic Energy Agency (IAEA).

“These reactors will generally have various advantages — they are smaller and more flexible than traditional reactors, which means inter alia that in many countries, including Saudi Arabia, they can be deployed in remote and arid areas.”


Saudi Arabia’s growing electricity needs are currently met almost entirely by oil and natural gas. In 2016, for example, 40 percent of its electricity came from oil. The result is a loss of potential export revenue. What is more, Saudi Arabia expects a 40 percent jump in electricity demand between 2019 and 2030, according to Khalid Al-Falih, the energy minister.

Electricity use will rise in the Kingdom due to the ongoing growth of urban areas and plans to develop a strong manufacturing sector. At the same time, according to the Electricity and Cogeneration Regulatory Authority (ECRA), nine percent of the electricity is used for desalination, on which Gulf countries are heavily dependent in the absence of fresh-water sources.

Compared with traditional nuclear reactors, the advanced ones can offer reduced construction time and costs, and a wider variety of sizes and outputs for different locations and applications.

“Besides emission-free electricity generation, they may help in desalination of sea water, which could provide a new source of fresh water to areas in need,” Bernhard said.

“A general benefit of nuclear energy is its potential role in producing carbon-dioxide emission-free electricity for a number of purposes. For the foreseeable future, renewable energy sources like wind and sun will probably not be able to deliver the output needed, such as in industrial development.”

Nuclear-energy experts say advanced reactors offer interesting new possibilities, especially for nuclear newcomers such as Saudi Arabia.


“From a climate-change standpoint, this may be a valuable contribution to the achievement of the Paris Agreement goals from some of the biggest oil-producing countries,” Bernhard said. “I would expect that for various reasons, several Gulf states will be interested in including nuclear energy, partly from advanced reactors.”

The economic case for countries to invest in civil nuclear reactors as part of a mix of alternative energy sources is compelling.

A case in point is Saudi Arabia. Among the many goals of its Vision 2030 is a reduction in dependency on oil revenues. To this end, the government has set ambitious goals for renewables, such as 9.5 gigawatts of solar and wind power by 2023.

According to Lady Barbara Judge, former head of the UK Atomic Energy Authority, advanced nuclear reactors are modern, safer, smaller, more convenient and compact. So, “if a country like Saudi Arabia is starting a nuclear program, it might as well start with the best new technology on the market because that’s a great advantage,” she told Arab News. “Saudi Arabia starts with a clean slate and it’s a very fortunate position to be in.”

With their nuclear-export strategy linked to their geopolitical ambitions, Russia and China have an advantage in the development of advanced reactors thanks to state financial backing.

Bernhard said: “Several countries with a nuclear energy tradition and industry are involved in the development of advanced reactors.

“At the moment, it seems that in particular Russia and China have positioned themselves strongly, because of years of experience in this field and state involvement in financing.

“There is a clear geopolitical angle to this. For instance, the sale and servicing of new facilities normally will promote and uphold strong political and economic relations between the providing and the receiving countries for a long period of time.”

The peaceful use of nuclear energy has been globally important for more than 60 years, resulting in 452 nuclear reactor units in 32 countries, most of them in Europe, North America, East Asia, and South Asia.

“Nuclear energy is clean and generates 24/7 so it’s a good companion to sun and wind. Renewables such as solar and wind are excellent sources of energy but dependent on weather conditions, which aren’t always stable,” said Lady Judge, who is also a member of the International Advisory Board for the development of nuclear energy in the UAE.

“So you need to have a stable force of clean energy which is available around the clock to back up any other system of power generation.”

Of course there is no glossing over the importance of the newcomers ensuring, in cooperation with the IAEA, that their nuclear facilities, whether advanced or traditional, live up to the highest standards and requirements with regard to security.

Nuclear technology can have dual use, peaceful or weaponized. An extensive and effective international safeguards regime, implemented by the IAEA, exists to contain the potential proliferation of nuclear weapons.

However, because of their unique features, advanced reactors do not easily fit into the existing national regulatory or international governance regimes, according to the Global Nexus Initiative’s report. In fact, they pose new challenges for the safeguards system.

As such, they will be subject to new security measures to help prevent a hostile outside attack, nuclear terrorism and insider sabotage. “These new technological challenges must be effectively addressed,” the authors of “Advancing Nuclear Innovation” say. “Several countries are focused on developing advanced reactors, including the US, Canada, South Korea, the UK, France, Russia and China. But the lack of a developed regulatory system and regulator experience is a challenge for all nations.”

As advanced nuclear reactors move through the design and development phase, it is also vital to have well-developed test beds to demonstrate the technology, the report says, adding that Russia and China have an advantage in this area.

According to Dr. Peter Bode, a former associate professor in nuclear science and technology at Delft University in the Netherlands, the use of nuclear-power plants in the future energy mix is beyond debate.

“Solar, wind and other renewables will not be sufficient,” he said. “But the future of nuclear in the region is positive, with plants in the UAE expected to be operational soon and used as an example that will quickly be followed by others.”

In a region where the future of oil and gas is unknown, nuclear power is expected to play a significant role. “It is a good companion, even currently, and certainly in the future,” Lady Judge said.

“And that feeling of energy security and energy independence, which nuclear brings, is one which many countries in the Gulf would like to share.”

https://www.utilities-me.com/power/...ld-promise-of-clean-energy-for-gulf-countries
 
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