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India’s First Indigenous 700 MW Nuclear Reactor Starts Commercial Operation at the Kakrapar Atomic Power Project (KAPP) in Gujarat

India’s First Indigenous 700 MW Nuclear Reactor Starts Commercial Operation at the Kakrapar Atomic Power Project (KAPP) in Gujarat

India’s First Indigenous 700 MW Nuclear Reactor Starts Commercial Operation at the Kakrapar Atomic Power Project (KAPP) in Gujarat

India’s first indigenously developed 700 MW nuclear power reactor at the Kakrapar Atomic Power Project (KAPP) in Gujarat commenced commercial operations on Friday, June 30. The KAPP-3 reactor is currently functioning at 90 percent of its total power capacity. This achievement marks a significant milestone in India’s nuclear power sector, as it demonstrates the country’s capability to develop and operate advanced nuclear reactors. The successful operation of the Kakrapar reactor contributes to India’s efforts in meeting its energy needs through clean and sustainable sources.

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Additionally, the government has given approval for the construction of 10 indigenously developed PHWRs in fleet mode at four different locations – Gorakhpur in Haryana, Chutka in Madhya Pradesh, Mahi Banswara in Rajasthan, and Kaiga in Karnataka.

What is Nuclear Energy?

Nuclear energy is the energy released when atoms are split apart. This process is called nuclear fission. Nuclear energy is used to generate electricity in nuclear power plants.

Advantages of Nuclear Energy

Disadvantages of Nuclear Energy

Overall, nuclear energy is a controversial source of energy. It has both advantages and disadvantages. However, it is a potential option for reducing greenhouse gas emissions and meeting the world’s energy needs.

What is a Pressurized Heavy Water Reactor (PHWR)?

A Pressurized Heavy Water Reactor (PHWR) is a type of nuclear reactor that uses heavy water (deuterated water, D2O) as its coolant and moderator. PHWRs frequently use natural uranium as fuel, but sometimes also use very low enriched uranium. The heavy water coolant is kept under pressure to avoid boiling, allowing it to reach a higher temperature (mostly) without forming steam bubbles.

PHWRs are a type of CANDU reactor, which was developed in Canada. The first PHWR was the Douglas Point reactor, which was built in Ontario, Canada in 1962. PHWRs are now in operation in Canada, India, China, Pakistan, South Korea, and Argentina.

Advantages of PHWRs

Disadvantages of PHWRs

Overall, PHWRs are a safe and efficient type of nuclear reactor. They are well-suited for countries that do not have access to enriched uranium

FAQs

What is the Kakrapar Atomic Power Project?

The Kakrapar Atomic Power Project (KAPP) is a nuclear power plant located in Gujarat, India. It is operated by the Nuclear Power Corporation of India Limited (NPCIL). The KAPP consists of two 220 MW pressurized heavy water reactors (PHWRs).

How a pressurized heavy water reactor (PHWR) is different from a normal reactor?

A pressurized heavy water reactor (PHWR) is a type of nuclear reactor that uses heavy water (deuterated water, D2O) as its coolant and moderator. PHWRs frequently use natural uranium as fuel, but sometimes also use very low enriched uranium. The heavy water coolant is kept under pressure to avoid boiling, allowing it to reach a higher temperature (mostly) without forming steam bubbles.

A normal reactor, on the other hand, uses light water as its coolant and moderator. Light water is ordinary water, which does not contain deuterium. This means that light water reactors are not as efficient as PHWRs, as they cannot reach as high a temperature. However, light water reactors are also simpler and cheaper to build.

Author

  • Shubham Mittal is a renowned current affairs writer and expert in government exam preparation, inspiring readers with insightful articles and guiding aspirants with his expertise.

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