Pakistan Ramps Up Nuclear Power to Boost Low-Carbon Electric Power

Construction of 1,100 MW nuclear power reactor K2 unit in Karachi has been completed by China National Nuclear Corporation, according to media reports. A similar reactor unit K3 will add another 1,100 MW of nuclear power to the grid, bringing the total nuclear power installed capacity of Pakistan to 3,630 MW (12% of total power) by 2022.  Hualong One reactors being installed in Pakistan are based on improved Westinghouse AP1000 design which is far safer than Chernobyl and Fukushima plants.  In addition, Pakistan is also generating  9,389  MW (about 28% of total power) of low-carbon hydroelectric power in response to rising concerns about climate change.

Karachi Nuclear Power Plant (KANUPP):

With the placement of the outer containment shell, K2 is  now ready for containment and heat tests. It is scheduled to begin operations in 2020. It’s built using the Chinese HPR1000 technology, which features a dual containment design, with the outer containment providing additional protection for the primary containment.

Karachi Nuclear Power Plant K2 Unit Under Construction. Source: CNNC


KANUPP is Pakistan's first nuclear power plant where construction started in 1966 in Karachi. The plant was connected to the national grid on 18 October 1972. KANUPP, a pressurized heavy water reactor of 137 MW gross capacity was constructed by Canadian General Electric under a turnkey contract. In 1976, vendor support for spare parts and fuel was withdrawn. The PAEC undertook the task of indigenously manufacturing the required spare parts and nuclear fuel on an emergency basis and, since 1980, KANUPP has successfully operated using fuel manufactured by the PAEC, according to International Atomic Energy Agency (IAEA). Here is an except of IAEA's 2018 report on nuclear power in Pakistan:

"Despite the keen interest of Pakistan in building additional nuclear plants, it took more than two decades before the second nuclear power plant started construction. This delay was due to Pakistan’s lack of access to international nuclear technology coupled with a lack of indigenous industrial infrastructure. The construction of Pakistan’s second nuclear plant, C-1, a pressurized water reactor (PWR), was made possible in 1993 with the help of the China National Nuclear Corporation (CNNC). The plant was connected to the national grid on 13 June 2000 and has a gross capacity of 325 MW. A third nuclear power plant, C-2, with 325 MW gross capacity started commercial operation on 18 May 2011. The fourth unit, C-3, started commercial operation on 6 December 2016. It has a gross capacity of 340 MW and a similar plant, C-4, sited beside C-3, was connected to the grid on 25 June 2017. The first concrete pours to mark the start of construction of Karachi Coastal Power Project, a project containing two nuclear units, K-2 and K-3 (1100 MW each), based on an improved PWR design, were 20 August 2015 and 31 May 2016, respectively."

Pakistan Power Generation Fuel Mix. Source: Third Pole



International Energy Agency:

International Energy Agency (IEA) has recently warned that "steep decline in nuclear power would threaten energy security and climate goals". "With nuclear power facing an uncertain future in many countries, the world risks a steep decline in its use in advanced economies that could result in billions of tonnes of additional carbon emissions", the IEA has said.

Pakistan Among 31 Countries Operating Nuclear Power Plants


Nuclear is the second-largest low-carbon power source in the world today, accounting for 10% of global electricity generation. It is second only to hydropower at 16%, according to International Energy Agency (IEA). Pakistan nuclear plants are expected to generate 3,630 MW  (12% of total power vs 10% global average) by 2022.  Pakistan is also generating  9,389  MW (about 28% of total power vs 16% global average) of low-carbon hydroelectric power in response to rising concerns about climate change.

Nuclear Plant Safety Concerns:

Activists in Pakistan have raised serious concerns about potential risks from K2 and K3 plants to the population in Karachi. Are such concerns valid?

The worst nuclear disaster in the history of nuclear power generation was at Chernobyl in present day Ukraine. One of the key reasons was that the Chernobyl plant did not have the fortified containment structure common to most nuclear power plants elsewhere in the world. KANUPP K-2 and K-3 reactors have two containment shells: primary and secondary. It is noteworthy that Bhopal Union Carbide disaster was history's worst industrial disaster, far bigger in terms of human toll than the Chernobyl disaster.

China signed a technology transfer deal with the United States in 2006 that put the Westinghouse AP1000 reactor design at the “core” of its atomic energy program. Chinese reactor manufacturers also resolved to build advanced third-generation technology in their safety review after the 2011 Fukushima nuclear plant disaster.

Unlike Fukushima where underground emergency cooling system failed due to flooding, the Hualong One design stores water above the reactor that can be gravity-fed to keep it cool if the pumps fail in the event of meltdown. The Chinese HPR1000 reactors employ multiple redundant generators and cooling systems to lower meltdown risk.

Hydropower Generation:

The biggest and most important source of low-carbon energy in Pakistan is its hydroelectric power plants. Pakistan ranked third in the world by adding nearly 2,500 MW of hydropower in 2018, according to Hydropower Status Report 2019.  China added the most capacity with the installation of 8,540 megawatts, followed by Brazil (3,866 MW), Pakistan (2,487 MW), Turkey (1,085 MW), Angola (668 MW), Tajikistan (605 MW), Ecuador (556 MW), India (535 MW), Norway (419 MW) and Canada (401 MW).

New Installed Hydroelectric Power Capacity in 2018. Source: Hydrowo...

Pakistan's Water and Power Development Authority (WAPDA) says commissioning of the 108-MW Golen Gol 2, 1,410-MW Tarbela 4th Extension and 969-MW Neelum Jhelum hydropower projects in 2018 boosted its hydroelectric generating capacity of 9,389 MW, an increase of 36% in just one year, according to Hydro Review. Hydropower now makes up about 28% of the total installed capacity of 33,836 MW as of February, 2019.   WAPDA reports contributing 25.63 billion units of hydroelectricity to the national grid during the year, “despite the fact that water flows in 2018 remained historically low.” This contribution “greatly helped the country in meeting electricity needs and lowering the electricity tariff for the consumers.”

Top 20 Countries by Newly Installed Hydropower Capacity. Source: IHA

Pakistan has the potential to generate 59,000 MW of hydropower, according to studies conducted by the nation's Water and Power Development Authority (WAPDA). Currently, it's generating only 9,389 MW of hydroelectric power, about 16% of the estimated potential. Media reports indicate that China is prepared to finance and build another 40,000MW capacity as part of the development of the Northern Indus Cascade region which begins in Skardu in Gilgit-Baltistan and runs through to Tarbela, the site of Pakistan’s biggest dam, in Khyber-Pakhtunkhwa province.
Pakistan has made only a small contribution to climate change through carbon emissions.  And yet, it counts among the dozen or so nations considered most vulnerable to its damaging effects. These include rising temperatures, recurring cycles of floods and droughts and resulting disruption in food production.

Summary: 

Construction of 1,100 MW nuclear power reactor K2 unit in Karachi has been completed by China National Nuclear Corporation, according to media reports. A similar reactor unit K3 will add another 1,100 MW of nuclear power to the grid, bringing the total nuclear power installed capacity of Pakistan to 3,630 MW (12% of total power) by 2022.  Hualong One reactors being installed in Pakistan are based on improved Westinghouse AP1000 design which is far safer than Chernobyl and Fukushima plants.  In addition, Pakistan is also generating  9,389  MW (about 28% of total power) of low-carbon hydroelectric power in response to rising concerns about climate change. One of the ways Pakistan can help reduce carbon emissions is by realizing its full nuclear and hydroelectric power potential by building more nuclear plants and dams. The development of the Northern Indus Cascade region to generate 40,000MW of hydropower is a significant part of this effort.

Related Links:

Haq's Musings

South Asia Investor Review

Nuclear Power in Pakistan

Recurring Cycles of Drought and Floods in Pakistan

Pakistan's Response to Climate Change

Massive Oil and Gas Discovery in Pakistan: Hype vs Reality

Renewable Energy for Pakistan

Digital BRI: China and Pakistan Building Fiber, 5G Networks

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Growing Water Scarcity in Pakistan

China-Pakistan Economic Corridor

Ownership of Appliances and Vehicles in Pakistan

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Riaz Haq's YouTube Channel

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Comment by Riaz Haq on November 10, 2020 at 8:59am

First Hualong One #nuclear reactor achieves criticality in #China. 2 HPR1000 units, each 1100MW, are under construction at #Pakistan's #Karachi nuclear power plant.began. They are planned to enter commercial operation in 2021 and 2022.- World Nuclear News


https://www.world-nuclear-news.org/Articles/First-Hualong-One-react...

China's Ministry of Ecology and Environment issued the operating licence for Fuqing 5 on 4 September. The process of loading the 177 fuel assemblies into the reactor core began the same day and was completed on 10 September. Yesterday, at 3.09pm, the reactor achieved first criticality after the boron concentration in the primary loop was diluted and the control rods were withdrawn.

Various commissioning tests will now be carried out at the Hualong One, prior to it being connected to the electricity grid. It will then undergo tests at increasing power output levels before entering a full-power demonstration operating assessment. During this assessment stage, the performance indicators of the unit will need to meet design standards and the relevant requirements of the power grid, which will indicate that the unit has achieved formal commercial operating conditions.

China's State Council gave final approval for construction of Fuqing units 5 and 6 in April 2015. The pouring of first concrete for Fuqing 5 began in May that year, marking the official start of construction of the unit. Construction of unit 6 began in December the same year. The inner dome of unit 5 was installed on the containment building in May 2017, with the outer dome installed in January 2018.


Hot testing at Fuqing 5 was completed on 2 March. These tests involved increasing the temperature of the reactor coolant system and carrying out comprehensive tests to ensure that coolant circuits and safety systems are operating as they should. Such testing simulates the thermal working conditions of the power plant and verifies that nuclear island and conventional equipment and systems meet design requirements.

Construction of two demonstration Hualong One (HPR1000) units is also under way at China General Nuclear's Fangchenggang plant in the Guangxi Autonomous Region. Those units are expected to start up in 2022. CNNC has also started construction of two Hualong units at the Zhangzhou plant in Fujian province, plus the first of two units at Taipingling in Guangdong.

Two HPR1000 units are under construction at Pakistan's Karachi nuclear power plant. Construction began on Karachi unit 2 in 2015 and unit 3 in 2016; the units are planned to enter commercial operation in 2021 and 2022.

Comment by Riaz Haq on November 28, 2020 at 12:42pm

Pakistan’s Peaceful Uses Of Nuclear Energy – OpEd
November 27, 2020
By Sher Bano

https://www.eurasiareview.com/27112020-pakistans-peaceful-uses-of-n...


Pakistan Atomic Energy Commission (PAEC), established in 1956 is the pioneer government agency to oversee the peaceful uses of nuclear technology in the country. It was established to contribute to Pakistan’s overall economic development through the utilization of nuclear energy in various public fields. These include; medical diagnosis/therapy, agricultural production, nuclear energy for power generation, and some other functions that involve peaceful uses of nuclear technology. In the early ’70s, PAEC constructed the first-ever 135 Megawatts (MWs) nuclear power plant at Karachi KANUPP. This was also the first-ever nuclear power generation plant in the developing or underdeveloped world. The successful launch of this power plant later led to the development of four more nuclear plants at Chashma, the CHASNUPP-1, CHASNUPP-2, CHASHNUPP-3, and CHASHNUPP-4. Furthermore, Pakistan also intends to build two nuclear power plants known as K-2 and K-3 at Karachi, one at Chashma, and two at Muzaffargarh. This is part of Pakistan’s long-term plan to produce 40,000 Megawatts MWs of electricity by using nuclear energy by the year 2050. Here it is quite noteworthy to specify that nuclear power generation is believed to be one of the economical and reliable sources of electricity generation. Such credentials have included Pakistan among the list of 30 countries that have fully operational nuclear plants. Along with this, Pakistan is also among the only ten countries in the world that have completed the nuclear fuel cycle.

Likewise, in the field of agriculture, nuclear technology has contributed to various landmark achievements for Pakistan. In this regard, the PAEC has developed multiple facilities for the advancements in the field of agriculture and food in collaboration with the IAEA. It has also launched various programs to increase the nutritional value of staple foods so that it can meet the United Nations Sustainable Development Goals (SDGs) to eliminate malnutrition and hunger. Furthermore, various irradiation techniques have been used in the agriculture sector to enhance the quality of food and to extend the shelf life of products at the farms. Also, PAEC is working on various food fortification initiatives to enhance the vitamin and mineral content in the food and to eradicate malnutrition. This is further evident from the fact that nearly 98 new high-yielding and stress-tolerant crops have been created by using nuclear technology. For the availability of clean water in the country, PAEC for years has been collaborating with IAEA to analyze and detect pollutants in water by using isotopic and nuclear techniques. Pakistan has also built laboratories by collaborating with IAEA for mass breeding of insects that fight pests attacking the crops and thus the use of pesticides is decreased.

In Pakistan, nuclear technology has significant use in the field of medical science especially for the diagnosis and treatment of cancer disease. In this regard, over the years, 18 cancer treatment centers have been developed by PAEC where nearly 0.7 million cancer patients have been treated to date. This counts for almost 80% of the total cancer patients from all over the country. Radiation and various other nuclear techniques are used for treating cancer. Likewise, various cancer awareness campaigns are being run by the PAEC so that cancer gets diagnosed at the early stages. Other than these, PAEC has been collaborating with international organizations like the WHO, IRC, IAEA, and UICC, etc. This has facilitated the access of Pakistani scientists and doctors to the relevant international institutions and provides opportunities for training in the field of nuclear medicines. Taking part in various seminars and workshops also keeps the nuclear medical professionals updated about the latest developments in this field.

Comment by Riaz Haq on December 2, 2020 at 9:54am

#UN Chief calls on humanity to end war on nature, go carbon-free. Says “Apocalyptic fires and floods, cyclones and hurricanes are increasingly the new normal". #climatechange #fossilfuel #carbonemissions #GlobalWarming https://lasvegassun.com/news/2020/dec/02/un-calls-on-humanity-to-en... via @LasVegasSun

Governments in the Group of 20 major and emerging economies have so far committed more money to prop up fossil fuel sectors than to boost the rollout of renewable energy, the report found.

Co-author Ivetta Gerasimchuk of the International Institute for Sustainable Development said investing in oil, coal and gas no longer makes economic sense because renewable energy is becoming cheaper than fossil fuels. But, she said, “We see that instead of governments letting these fossil fuel projects die they resurrect them from the dead.”

The WMO’s report found global warming is worsening in all seven key climate indicators, but the problem is increasing human suffering in an already bad year.

“In 2020, over 50 million people have been doubly hit: by climate-related disasters (floods, droughts and storms) and the COVID-19 pandemic,’’ the report said. ”Countries in Central America are suffering from the triple-impact of hurricanes Eta and Iota, COVID-19 and pre-existing humanitarian crises.”

Among the dozens of extremes the report highlighted:

-- A record 30 Atlantic named tropical storms and hurricanes.

--Death Valley, California, hit 129.9 degrees (54.4 degrees Celsius), the hottest the world has seen in 80 years.

--Record wildfires struck California and Colorado in the western United States, following a major fire season and record heat in Australia.

--The Arctic had record wildfires and a prolonged heat wave culminating in a 100-degree mark (38 degrees Celsius) in Siberia in June.

--Record low Arctic sea ice was reported for April and August and the yearly minimum, in September, was the second lowest on record.

--More than 2,000 people died in record summer rains and flooding in Pakistan and surrounding nations.

While these events can’t solely be blamed on climate change, “these are the types of events scientists fear will increase due to climate change,” said Cornell University climate scientist Natalie Mahowald, who wasn’t part of the report.

“Human activities are at the root of our descent towards chaos,” Guterres said. “But that means human action can solve it.”

Comment by Riaz Haq on December 2, 2020 at 10:17am

Fuel loading starts for 1,100 MW K-2 #nuclear power plant in #Karachi. The other plant, 1,100 MW K-3, is expected to become operational by the end of 2021. Both have remained on schedule despite disruption from #COVID19 pandemic. #Pakistan #China #CPEC https://www.dawn.com/news/1593541

A spokesperson for the Pakistan Atomic Energy Commission (PAEC) said fuel loading for the newly built Karachi Nuclear Power Plant Unit-2 (K-2) was started on Tuesday after obtaining fuel load permit from the Pakistan Nuclear Regulatory Authority.

K-2 is a pressurised water reactor based on the Chinese HPR-1000 technology and a third generation plant equipped with advanced safety features, according to the spokesperson. The construction of K-2 plant started on Aug 31, 2015 and its commercial operation will begin in April 2021 after undergoing several operational and safety tests.

Agreements signed with Chinese firm for construction of hydropower project in Azad Kashmir

K-2 is one of the two 1,100MW nuclear power plants being constructed at Karachi. The other plant, K-3, is expected to become operational by the end of 2021. The completion of these nuclear power plants has remained largely on schedule despite the difficult times due to Covid-19 pandemic. The fuel loading was witnessed by Director General of the Strategic Plan Division Lt Gen Nadeem Zaki Manj, PAEC Chairman Mohammad Naeem and senior Chinese and Pakistani officials.

Separately, the AJK government and Chinese firm China Gezhouba Group and its local partner Laraib Group signed implementation agreement and water use charges agreement for construction of Azad Pattan Hydropower Project as part of the China-Pakistan Economic Corridor (CPEC).

With an investment of over $1.35 billion, the 700.7MW project would involve no fuel import and enable the country to move towards cheaper and greener power generation, said AJK Prime Minister Raja Farooq Haider Khan on the occasion.

Federal Minister for Power Omer Ayub Khan, Minister for Planning Asad Umar, Chairman of defunct-CPEC Authority retd Lt Gen Asim Saleem Bajwa, AJK Chief Secretary Dr Shahzad Khan Bangash and Managing Director of Private Power and Infrastructure Board (PPIB) Shah Jahan Mirza attended the agreement signing ceremony.

The project agreements — GoAJ&K Implementation Agreement and GoAJ&K Water Use Agreement — were signed by Zafar Mahmood Khan, electricity secretary of AJK, and Li Xiaotao, CEO of Azad Pattan Power Private Limited.

The Government of Pakistan Implemen­tation Agreement, Government of Punjab Water Use Agreement and Tripartite Power Purchase Agreements of the project had already been signed in the presence of Prime Minister Imran Khan in July this year. Tuesday’s agreement signing will enable the achievement of financial close of the project.

The letter of support (LOS) for the project was issued by the PPIB to Azad Pattan Power Project Limited. It is a run-off-the river scheme on River Jhelum located at the dual boundary between AJK (Bagh district) and Punjab (Rawalpindi district).

China Gezhouba Group and Laraib Group Pakistan are the shareholders of the project. The consortium of lenders consists of China Development Bank, China Construction Bank, Industrial and Commercial Bank of China and Bank of China.

Azad Pattan Project is being implemented by the PPIB under the Policy for Power Generation Projects 2002 on built, own, operate and transfer basis for a term of 30 years after which it will be transferred to the AJK government free of cost. The project is expected to provide about 3,266 GWh electricity per year to the national grid by 2027.

The project would a play crucial role in stimulating local economy by providing employment and business opportunities during its construction periods, said the ministry of power. The governments of AJK and Punjab would earn significant amount of revenue on account of taxes, fees, etc.

Comment by Riaz Haq on December 7, 2020 at 11:49am

Going carbon free
By Engr. Hussain Ahmad Siddiqui Mon, 12, 20

https://www.thenews.com.pk/magazine/money-matters/754611-going-carb...


Now known as Chashma Nuclear Power Plant-1 (or CHASNUPP-1 or C-1), it has PWR (pressurised water reactor) type reactor of 325MWe gross or 300MWe net capacity. Since then, there has been a series of nuclear power plants constructed at Chashma site with the generous help of China. These are CHASNUPP-2 (or C-2) of 325MWe gross or 300MWe net capacity, grid-connected in 2011, CHASNUPP-3 (or C-3) of 340MWe gross or 315MWe net capacity, grid-connected in 2016, and CHASNUPP-4 (C-4) of 340MWe or 313MWe net capacity, which was grid connected in 2017.

Today, cumulative capacity of these nuclear power plants is 1,467MWe gross or 1,318MWe net, generating 9,705GWh (Gigawatt-hours) with a share of over seven percent in power generation mix of total 134,745GWh generated during last fiscal year ending June 30, 2020. Overall capacity factor of these nuclear power plants is at par with global levels. All these nuclear power plants are operating under international safeguards of the International Atomic Energy Agency (IAEA), Pakistan being an IAEA Member State since 1957.

In January 2018, the IAEA launched a four-year technical cooperation project titled “Strengthening and Enhancing Capabilities of Pakistan’s National Institutions to Support a Safe, Reliable and Sustainable Nuclear Power Programme”. Subsequently, Pakistan signed in September 2019 the fourth “IAEA Country Programme Framework for 2020-2025”, which is a medium-term plan of technical cooperation for transfer of nuclear technology. Based on this document, the IAEA technical cooperation resources will be directed to support national development goals in the areas of, inter alia, nuclear power development and nuclear safety and security.

Currently, there are two nuclear power plants under construction at Karachi—KANUPP-2 (K-2) and KANUPP-3 (K-3), each of 1,145MWe capacity. These are Chinese third-generation Hualong One (also known as HPR 1000) reactors based on PWR technology. The first nuclear power plant based on Hualong One technology has been tested and grid-connected in China ten days ago, on November 27. The power plant located in Fuqing city in Fujian province meets the strictest safety standards in the world and meets designed requirements for technical performance, China claims.

Construction of K-2 and K-3 started in August 2015 and May 2016, respectively. K-2 is in advanced stage of construction. Cold testing of K-2 was completed in December 2019. Concreting of outer dome of the double-layer containment of K-3 was completed in April 2020. Thus, K-2 is scheduled for commercial operations by the end of 2021, whereas K-3 is expected to complete in 2022. The Chinese have committed to supply reactors fuel (uranium) for design lifetime of sixty years of these plants. The two projects are covered under the China-Pakistan Economic Corridor (CPEC) programme. The IAEA applies safeguards to K-2 and K-3 as well under the agreement concluded in May 2017. With the completion of K-2 and K-3 total installed capacity of nuclear power generation would be 3,757MWe.

To meet energy needs for socio-economic development, Pakistan plans to enhance nuclear-based power generation to 8,800MWe total installed capacity by 2030 targeting 25 percent share in overall power generation mix by then. It is decided that China’s Hualong One unit of 1,145MWe capacity, as installed at K-2 and K-3, will be replicated for future projects. In November 2017, Pakistan signed Cooperation Agreement with the Chinese on the construction of CHASNUPP-5 as a Hualong One unit. It is planned to construct another unit at Muzaffargarh, near Taunsa-Punjnad Canal, while four other sites have been identified, in consultation with the IAEA, for the remaining projects planned for completion by 2030.

Comment by Riaz Haq on December 7, 2020 at 11:52am

First Hualong One reactor achieves initial criticality

https://www.ans.org/news/article-2322/first-hualong-one-reactor-ach...

Also known as the HPR1000, the Hualong One is a Chinese-designed, 1,000-MWe Generation III pressurized water reactor. Fuqing-5’s twin HPR1000, Fuqing-6, is scheduled to start contributing power to the grid next year.

Located in China’s Fujian Province, Fuqing also houses four 1,000-MWe CPR-1000 PWRs, with commercial start dates of November 2014, October 2015, October 2016, and September 2017.

On the horizon: In addition to the new units at Fuqing, CNNC is building two Hualong One reactors at the Zhangzhou site in Fujian Province (construction of Unit 1 began in October 2019, while Unit 2’s construction commenced just recently) and one at Taipingling in Guangdong Province, with another planned for the site.

Also, China General Nuclear is building two Hualong One reactors (Units 3 and 4) at its Fangchenggang plant in Guangxi Province.

Comment by Riaz Haq on February 18, 2021 at 5:50pm

#Pakistan to issue a $500 million green bonds to boost #hydropower. Engages JP Morgan to underwrite as part of #investment in #renewableenergy for #green #economic stimulus. It’s banning new #coal power plants and planting 10 billion #trees https://www.bloomberg.com/news/articles/2021-02-18/pakistan-plans-f... via @business


Pakistan’s government is planning to issue a $500 million green bond in the next few months to help boost its development of hydroelectric power.

The bond, denominated in euros, will be the government’s first to fund environmental goals, Malik Amin Aslam, an adviser to Prime Minister Imran Khan on climate change, said in an interview. It is set to be issued through the country’s state-owned Water & Power Development Authority, with JPMorgan Chase & Co. advising, he said.

“We’ve got a lot of hydro potential in Pakistan,” he said on Thursday. “The bonds are there to accelerate this.”

Khan’s government is investing in renewable energy to ramp up its economic stimulus in the wake of the pandemic. It’s also promised to ban new coal power plants and is looking to plant 10 billion trees. The nation’s cities rank among the worst globally for air pollution, according to IQAir.

The South Asian nation has a fragile economy that goes through regular boom and bust cycles. It received debt relief during the pandemic, restoring its $6 billion bailout program that it secured from the International Monetary Fund in 2019 to avoid bankruptcy.

Issuance of green bonds globally is seen surging to $375 billion in 2021 by Moody’s Investors Service, after record sales last year. While Europe has led the way, countries from Singapore to Brazil plan to sell their first to tap buoyant investor demand.

JPMorgan, the world’s top arranger of green debt, declined to comment.

Comment by Riaz Haq on March 10, 2021 at 7:44am

#Pakistan: #KP provincial government signs pact with #Chinese company for 300MW, Rs. 85 billion #Balakot #hydropower project. #ADB to provide bulk of financing. #renewableenergy #ClimateAction #PTI https://www.dawn.com/news/1611678

PESHAWAR: The Khyber Pakhtunkhwa government on Tuesday signed an agreement with a Chinese company for the construction of the 300-megawatt Balakot hydropower project.

The 300MW project — said to be the biggest-ever power generation plant in the province — would be constructed with an estimated cost of Rs85 billion in a period of six years with the financial assistance of the Asian Development Bank, said an official statement.

At the signing ceremony, Khyber Pakhtunkhwa Chief Minister Mahmood Khan was the chief guest. Officials of the Pakhtunkhwa Energy Develop­ment Organisation (PEDO) and China Gezhouba Group signed the agreement. KP Finance Minister Taimur Saleem Jhagra and Adviser to CM KP Himayatullah Khan also attended the event along with the high-ups of the energy and power department.

Speaking on the occasion, CM Khan termed the project as of vital importance for the province and a milestone achievement of the provincial government. He said the groundbreaking of the mega-project was expected to be performed by mid-April by Prime Minister Imran Khan.


Rs85bn project will be constructed in six years

The project would play an important role in boosting industrial activities, job creation and overall development of the province, he said, adding that during the construction phase, the project would generate around 4,000 job opportunities. Upon completion, it is expected to generate revenue of Rs14bn per annum, he added.

The CM maintained that power generated by Balakot hydropower project would be provided to local industries as well as to domestic consumers at relatively cheap rates.

The incumbent provincial government was taking result-oriented steps under a well-devised strategy to ensure optimum utilisation of the hydropower potential of the province with the aim to meet its energy requirements and strengthen its economy, the chief minister said.

So far various hydropower projects with a total capacity of 160MW have been completed under PEDO, whereas work is in progress on various other projects having a total capacity of 216MW.

Published in Dawn, March 10th, 2021

Comment by Riaz Haq on March 13, 2021 at 7:52am

#Karachi 1100 MW K-2 #nuclear power plant achieves criticality. Expected to be connected the the national grid in May 2021. Another 1100 MW K-3 nuclear power plant to go online in 2022. #Pakistan - Newspaper - DAWN.COM

https://www.dawn.com/news/1610351

The Pakistan Atomic Energy Commission (PAEC) on Tuesday announced it had achieved criticality of its 1,100MW nuclear power station in Karachi, one of the two major nuclear plants in the city.

The commission said the 1,100MW plant, called K-2, would go through certain safety tests and procedures before it is connected to the national grid by the end of March.

K-2 is one of the two similar under-construction nuclear power plants (NPPs) located near Karachi and will be inaugurated for commercial operation by the end of May this year. The other one, K-3, is expected to become operational in 2022.

K-2 is the first nuclear power plant in Pakistan with a generation capacity of over 1,000MW and will help reduce loadshedding in summers by generating environment friendly, affordable and reliable base load electricity for the country.

The PAEC was previously running five NPPs in the country (one at Karachi and four at Chashma) with collective generation capacity of nearly 1,400MW. Therefore, the K-2 would almost double the capacity of the country’s NPPs, improving considerably the share of nuclear power in the overall energy mix.

The loading of nuclear fuel onto the plant was started on December 1 last year after clearance from the Pakistan Nuclear Regulatory Authority. The PAEC had at the time announced that it would achieve COD commercial operations of K-2 in April 2021 and that of K-3 by the end of 2021.

On Tuesday, the PAEC spokesperson said that the first plant was expected to reach COD by the end of May and the K-3 in 2022.

Comment by Riaz Haq on March 13, 2021 at 8:09am

On August 10 (2020), a powerful storm called a derecho swept through the Midwest (predominately eastern Nebraska, Iowa, Illinois, Wisconsin, and Indiana in the United States) with wind gusts of up to 130 miles per hour, cutting off the external power supply to the Duane Arnold Energy Center, a General Electric reactor of the same type and vintage as the doomed Fukushima Daiichi units. A pandemic-weary nation didn’t pay much attention, but it should have. According to a preliminary Nuclear Regulatory Commission (NRC) analysis, this was the most serious US nuclear power plant incident in at least 18 years.

https://thebulletin.org/2021/03/fukushima-10-years-later-it-still-c...

Duane Arnold, which its owner, NextEra, had been planning to shut down at the end of October 2020 for economic reasons, was already in a vulnerable state. It was operating at only 80 percent of capacity because the primary containment had been overheating due to a cooling system leak, and there was a ruptured nuclear fuel element in the core. In addition, major pieces of safety equipment were out of service for maintenance.

At 12:49 p.m. local time, Duane Arnold automatically shut down after the derecho took down all six power lines supplying the plant. The reactor’s two emergency diesel generators started up as expected. However, the nuclear fuel remained hot, and it took plant operators 14 hours of deft maneuvering to stabilize and cool down the reactor—a process that was not trouble-free. Operators violated technical restrictions several times, one of the two spent fuel pool cooling pumps blew a fuse, and a strainer that filtered potentially damaging debris from the cooling water supply to one of the diesel generators became clogged and had to be bypassed. Off-site power to the plant was not restored until nearly 24 hours after it was lost.

Although operators were able to compensate for all the problems and shut down Duane Arnold safely, the NRC estimates that there was at least a one-in-1,000 chance, on average, that the reactor could have experienced a meltdown. The NRC considers such high-risk events “significant” precursors to a severe accident. For example, if the reactor’s emergency diesel generators had failed, a station blackout similar to the Fukushima accident would have occurred. (The NRC risk estimate optimistically assumes a nearly 90 percent chance that personnel would have been able to save the plant even after a blackout, which workers had failed to accomplish three times over at Fukushima.)

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