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Pakistan's Large and Growing Civil Nuclear Program

RiazHaq

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Pakistan's nuclear weapons program gets a lot of global attention. But the country also has a large and growing civil nuclear program which has added over 3,500 MW of low-carbon electricity to the national grid. It also supports a variety of agricultural, biological and medical applications. The program relies particularly on the expertise and contributions of nuclear scientists trained at the Pakistan Institute of Nuclear Science and Technology (PINSTECH) founded in 1965 by Dr. Ishrat Husain Usmani. Dr. Usmani graduated from Aligarh Muslim University and later did his doctoral research at London's Imperial College under the supervision of Nobel Laureate Niels Bohr. The entire civilian nuclear program in Pakistan operates under the International Atomic Energy Agency's safeguards.

PINSTECH, Pakistan

Pakistan Nuclear Science and Technology History:

Pakistan started its nuclear program in the 1950s under the United States’ “Atoms for Peace” program, which was designed to promote peaceful uses of nuclear technology. In 1956, the Pakistani government created the Atomic Energy Commission (PAEC) to lead the new program. The United States gave Pakistan its first reactor—the five megawatt Pakistan Atomic Research Reactor (PARR-1)—in 1962.

During this early period, PAEC chairman Dr. Ishrat Husain Usmani devoted government resources to train the next generation of Pakistani scientists. Usmani founded the Pakistan Institute of Nuclear Sciences and Technology (PINSTECH) in 1965 and sent hundreds of young Pakistani students to be trained abroad.

Nuclear Power Generation:

Pakistan has installed over 3,500 MW of low-carbon nuclear power generating capacity. Nuclear power plants in Pakistan generated 15,540 GWH of electricity in 2021, a jump of 66% over 2020.

Overall, Pakistan's power plants produced 136,572 GWH of power, an increase of 10.6% over 2020, indicating robust economic recovery amid the COVID19 pandemic. Nuclear offers the lowest cost of fuel for electricity (one rupee per KWH) while furnace oil is the most expensive (Rs. 22.2 per KWH).

Construction of two 1,100 MW nuclear power reactor K2 and K3 units in Karachi was completed by China National Nuclear Corporation in 2022, according to media reports. Chinese Hualong One reactors installed in Pakistan are based on improved Westinghouse AP1000 design which is far safer than Chernobyl and Fukushima plants.
Nuclear Medicine:

Currently, there are 51 nuclear medicine centers in Pakistan, according to National Institutes of Health (NIH). Pakistan Atomic Energy Commission (PAEC) is the largest single contributor with 18 centers spread across the length and breadth of the country, including some remote towns. In terms of radionuclide therapeutic radioiodine for outpatient treatment of hyperthyroidism is more widely available across Pakistan. Inpatient facilities for delivering high-dose are limited, but given the spread of centers across the country, a large extent of the country’s landscape is covered.

Shaukat Khanum Cancer Hospital founded by former Prime Minister Imran Khan was the first PET-CT service in Pakistan introduced in the private sector in Lahore in 2009. At present 6 PET/CT centers are operational, 2 in Lahore , 4 in Karachi backed by 5 hospital-based cyclotrons (Lahore 2, Karachi 3).

A cyclotron is a type of particle accelerator which repeatedly propels a beam of charged particles (protons) in a circular path. Medical radioisotopes are made from non-radioactive materials (stable isotopes) which are bombarded by these protons. In the next 2 to 6 months, first PET/CT with onsite cyclotron is expected to commission in Rawalpindi along with a scanner in Peshawar and Lahore taking the total tally to 9 scanners. A fourth cyclotron is expected to be operational in Karachi in the same period. All cyclotrons are used for F-18 labeled FDG as it remains the work horse of PET imaging. The optimal half-life, simple chemistry, and tons of experience and literature makes it ideal to make a successful enterprise. At present, there is no registry for the utilization of PET-CT across Pakistan; however, institutional clinical experience is increasingly shared at national and international conferences and published in literature, according to the NIH.

Agriculture Applications:

Pakistan Atomic Energy Commission (PAEC) has established agriculture and biotechnology centers in the country: Nuclear Institute for Agriculture (NIA) at Tandojam, Sindh (1962), Nuclear Institute for Agriculture & Biology (NIAB) (1972), National Institute of Biotechnology & Genetic Engineering (NIBGE) (1994) at Faisalabad, Punjab, and Nuclear Institute for Food & Agriculture (NIFA), in Peshawar, Khyber Pakhtunkhwa (1982). These institutes focus on crop improvement, pest control, livestock health, food and environmental protection, and soil-water and plant nutrition management.

The research by agriculture and biotech centers has produced several new varieties of wheat, cotton, rice, mung bean, chickpea, lentil, sugarcane, castor bean, kinnow, sesame, tomato, and brassica. These varieties are high-yielding, heat tolerant, insect and disease resistant, and have more nutritional value.

According to a report from the IAEA, mutant varieties of cotton in Pakistan have improved the quality traits of crops. The mutations in the crop varieties have led to “decrease[d] use of pesticides (due to increased disease resistance), a reduction in using fertilizers and consumption of water (due to the highly efficient nutrient intake and better tolerance to drought), superior quality, and higher crop yields,” the report states.

] The new varieties developed now account for 40% of all cotton produced in Pakistan, up from just 25% two years ago and from nonexistent yield in 2016, according to Nuclear NewsWire.

International Atomic Energy Agency:

Recently, the IAEA Director General Rafael Mariano Grossi visited Pakistan to meet with Pakistani officials in charge of the civilian nuclear program. Here's a press release of the IAEA about the visit:

The Islamic Republic of Pakistan and the IAEA will increase collaboration in peaceful applications of nuclear science and technology, particularly in agriculture and medicine, to the benefit of the country and its neighbours. That was the outcome of Director General Rafael Mariano Grossi’s two-day trip to Pakistan this week, during which he met with the country’s leadership — including its Prime and Foreign Ministers — and visited numerous nuclear facilities across the country, some of which he inaugurated.

Mr Grossi began his visit by meeting with Prime Minister Muhammad Shehbaz Sharif. The two spoke about the worsening effects of climate change on Pakistan and how nuclear science and IAEA support is helping the country.

For decades Pakistan has been ranked as one of the 10 most vulnerable countries to climate change, and last summer, was inundated with climate-change linked flooding which caused mass displacement of people and economic damages to the tune of USD 40 billion. The IAEA and Food and Agriculture Organization of the United Nations (FAO), in coordination and consultation with Pakistani authorities developed an emergency support package to assist the country in applying nuclear science to better understand the flood’s impact on soils, crops and the potential spread of animal and zoonotic diseases.

The Prime Minister expressed his desire to strengthen collaboration with the IAEA in agriculture and medicine and his support to the Agency’s efforts to promote peace and development worldwide. The two also discussed nuclear safety and security Ukraine, where Mr Grossi is championing efforts to establish a protection zone around Ukraine’s Zaporizhzhya Nuclear Power Plant, a facility beset with nuclear safety and security challenges caused by the war in the country.

In a meeting with Foreign Minister Bilawal Bhutto Zardari, Mr Grossi said opportunities for the peaceful use of nuclear science and technology in Pakistan were plentiful, emphasizing how nuclear applications and IAEA initiatives are addressing climate change and issues of access to cancer care. Mr Bhutto Zardari said that Pakistan and the IAEA will further enhance cooperation and grow the role of nuclear applications in dealing with climate change, water, energy and food security.

In Islamabad, Mr Grossi met with the Minister of Planning and Development, Ahsan Iqbal, to discuss the role of nuclear applications in addressing Pakistan’s vulnerability to climate change. The Director General also met with Pakistani fellows of the IAEA Marie Sklodowska-Curie Fellowship Programme, an initiative seeking to help build gender-balanced capacities in the nuclear sector.

Nuclear for energy, food and health

Pakistan currently operates six nuclear power reactors at two sites, that generate about 10 per cent of the country’s total and almost a quarter of its low-carbon electricity. During his trip, Mr Grossi visited one of those sites, Chashma Nuclear Power Plant, 250 kilometres south of Islamabad. Inaugurating the site’s new spent fuel dry storage facility, Mr Grossi highlighted the importance of managing spent fuel safely and securely.

Mr Grossi was welcomed at the Pakistan Institute of Nuclear Science and Technology (PINSTECH), an IAEA partner in work related to human health, nutrition and water analysis. At PINSTECH, Mr Grossi inaugurated a dosimetry laboratory. Mr Grossi also visited the Pakistan Centre of Excellence in Nuclear Security (PCENS), saying he was impressed by the high standard of the facility and that he looked forward to further collaboration.

At the Nuclear Medicine Oncology and Radiotherapy Institute in Islamabad, Mr Grossi inaugurated Cyberknife, a new cancer treatment facility that he described as a milestone for the country. He said Pakistan would be able to support its neighbours with regards to cancer treatment access by becoming a regional centre under Rays of Hope — an IAEA initiative seeking to increase cancer care access in low- and middle-income countries by helping to introduce and improve radiation medicine capacities and build the cancer care workforce.

In Faisalabad, Mr Grossi visited the Nuclear Institute for Agriculture and Biology (NIAB), designating it as an IAEA Collaborating Centre in agriculture and biotechnology. In a special ceremony, Mr Grossi planted a Sago Palm at the site and spoke about the IAEA’s collaboration with the facility in developing climate change resilient cotton varieties. NIAB is also a national laboratory under the IAEA’s ZODIAC initiative for combating zoonotic diseases and future pandemics.

Mr Grossi toured another IAEA Collaborating Centre, the National Institute of Safety and Security, when visiting the Pakistan Nuclear Regulatory Authority and meeting with its Chairman Faizan Mansoor. He was also honoured to inaugurate the National Radiation Emergency Coordination Centre (NRECC) in Islamabad.

Visiting the headquarters of the Pakistan Atomic Energy Commission (PAEC), Mr Grossi had a meaningful exchange with the Commission on the comprehensive and cohesive nature of the country’s peaceful nuclear programme. Mr Grossi's visit to Pakistan was on the invitation of PAEC Chairman Raja Ali Raza Anwar, whom he thanked for Pakistan's hospitality during the two days. The Director General concluded his visit in Islamabad with a seminar on climate change mitigation, during which he highlighted the role of the IAEA in supporting climate-vulnerable countries in addressing the climate crisis with nuclear science and technology.

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Nuclear Power in the World Today(Updated May 2023)



Civil nuclear power can now boast more than 18,000 reactor years of experience, and nuclear power plants are operational in 32 countries worldwide. In fact, through regional transmission grids, many more countries depend in part on nuclear-generated power; Italy and Denmark, for example, get almost 10% of their electricity from imported nuclear power.

When the commercial nuclear industry began in the 1960s, there were clear boundaries between the industries of the East and West. Today, the nuclear industry is characterized by international commerce. A reactor under construction in Asia today may have components supplied from South Korea, Canada, Japan, France, Germany, Russia, and other countries. Similarly, uranium from Australia or Namibia may end up in a reactor in the UAE, having been converted in France, enriched in the Netherlands, deconverted in the UK and fabricated in South Korea.

The uses of nuclear technology extend well beyond the provision of low-carbon energy. It helps control the spread of disease, assists doctors in their diagnosis and treatment of patients, and powers our most ambitious missions to explore space. These varied uses position nuclear technologies at the heart of the world's efforts to achieve sustainable development. For more information, see page on Nuclear Energy and Sustainable Development.In 2021 nuclear plants supplied 2653 TWh of electricity, up from 2553 TWh in 2020.

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Asia

Bangladesh started construction on the first of two planned Russian VVER-1200 reactors in 2017. Construction on the second started in 2018. It plans to have the first unit in operation by 2023. The country currently produces virtually all of its electricity from fossil fuels.

China has 55 operable nuclear reactors, with a combined net capacity of 53.3 GWe. In 2021, nuclear generated 5.0% of the country's electricity.The country continues to dominate the market for new nuclear build, with 21 reactors under construction at the end of July 2022. In 2018 China became the first country to commission two new designs – the AP1000 and the EPR. China is marketing the Hualong One for export, a largely indigenous reactor design.The strong impetus for developing new nuclear power in China comes from the need to improve urban air quality and reduce greenhouse gas emissions.India has 22 operable nuclear reactors, with a combined net capacity of 6.8 GWe. In 2021, nuclear generated 3.2% of the country's electricity.

The Indian government is committed to growing its nuclear power capacity as part of its massive infrastructure development programme. The government in 2010 set an ambitious target to have 14.6 GWe nuclear capacity online by 2024. At the end of July 2022 eight reactors were under construction in India, with a combined capacity of 6.7 GWe.

Japan has 33 operable nuclear reactors, with a combined net capacity of 31.7 GWe. As of March 2022, 10 reactors had been brought back online, with a further 15 in the process of restart approval, following the Fukushima accident in 2011. In the past, 30% of the country's electricity has come from nuclear; in 2021, the figure was just 7.2%.

South Korea has 25 operable nuclear reactors, with a combined net capacity of 24.4 GWe. In 2021, nuclear generated 28.0% of the country's electricity.The country has three new reactors under construction domestically and is constructing a four-unit plant in the United Arab Emirates.

Pakistan has six operable nuclear reactors, with a combined net capacity of 3.3 GWe. In 2021, nuclear generated 10.6% of the country's electricity. Pakistan has one Chinese Hualong One unit under construction, which achieved first criticality in February 2022.
 
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