India Year Book 2017 Crux: Science and Technology Part II

Apr 28, 2017 13:14 IST

India Year Book Science IIndia year book provides details of the most authentic government schemes and policies on the scientific and technological developments in the country, especially in the nuclear energy sector that can be directly asked in the IAS prelims exam.

India Year Book 2017 Crux: Science and Technology Part I

Nuclear Power Programme: Stage 1

Pressurised Heavy Water Reactors & Light Water Reactors

The Nuclear Power Corporation of India Ltd. (NPCIL) is responsible for sitting, design, construction, commissioning and operation of nuclear power reactors.
Project Under construction

1. Kakrapar Atomic Power Project (KAPP) Unit-3&4 (2x700 MWe)
2. Rajasthan Atomic Power Project (RAPP) Unit 7&8 (2x700 MWe)

Sanctioned Projects

1. Kudankulam Nuclear Power Project (KKNPP) Unit-3&4 (2x1000 MWe LWRs)
2. Gorakhpur Anu Vidyut Pariyojana Haryana (GHAVP) Units-1&2 (2x700 MWe PHWRs)

Front End Fuel Cycle

• Front End Fuel Cycle comprises operations such as mining, milling and processing of ore, and fabrication of fuel.

• In addition, production of heavy water, used as a moderator and coolant in pressurised heavy water reactors, also constitutes a major programme segment of the Nuclear Power Programme.

• DAE has been working to enhance its capabilities in uranium mining and mineral processing and to make itself self-sufficient in the production of heavy water, zirconium alloy components and supplies for the pressurised heavy water reactor.

• The Nuclear Fuel Complex at Hyderabad manufactures fuel assemblies for pressurised heavy water reactors, boiling water reactors and fast breeder reactor.

Heavy Water Board

• The Heavy Water Board produces heavy water for all Pressurised Heavy Water Reactors in a cost effective manner enabling the department to provide nuclear power at an affordable cost to the common man.

• Over a period of time, Heavy Water Board (HWB) has emerged as the largest global producer and a trusted supplier of this strategic material.

• The performance of the Board during the period was excellent with respect to production, specific energy consumption, on-stream factor and plant safety.

Boron Enrichment

• Heavy Water Board (HWB), with its decades of experience of handling isotope separation process, took up development, demonstration and deployment of indigenous technologies for the production of enriched Boron.

• HWB is now capable of achieving enrichment levels beyond 95 per cent in multiple chemical forms.

Sodium Metal

• Sodium is an important input for FBRs, used as a coolant in the reactor.

• Heavy Water Board (HWB) has developed indigenous and safer closed electrolytic cell technology for production of nuclear grade sodium.

Nuclear Programme for IAS

Current Affairs Quizzes 2016 for IAS Prelims 2017

Mineral Exploration and Mining

• Atomic Minerals Directorate for Exploration and Research (AMD) continued the accelerated pace of exploration activities with a focussed approach to augmentation of uranium, thorium and rare metals.

• Rare Metal and Rare Earth (RMRE) investigations resulted in the location of significant concentrations of RMRE along with Chhattisgarh, Tamil Nadu and Karnataka.

• Beach Sand and Offshore Investigations (BSOI) has successfully established potential heavy mineral zones mainly along the east coast.

• Significant zones of Total Heavy Mineral (THM) concentration have been located in Andhra Pradesh, Odisha and Tamil Nadu.

• The Mining and processing of uranium ore in India are done by the Uranium Corporation of India Ltd. (UCIL).

• A new mine and a processing plant are also under construction at Tummalapalle, Andhra Pradesh.

• The Indian Rare Earths Limited (IREL) is a well known mini ratna company and it is mainly associated with mining and production of beach sand minerals and rare earth compounds.

Fuel Reprocessing and Waste Management

• Incineration of combustible wastes can be applied to both radioactive and other wastes.

• The Joule Melter Technology is essentially a single step process, where immobilisation of HLW in a borosilicate glass matrix is achieved in a refractory lined melter.

• In general borosilicate glass has been chosen as the medium for dealing with HLW.

• An innovative method to partition the radio-elements from inactive salt constituents using indigenously developed solvents was employed for the management of radioactive waste.


Nuclear Power Programme: Stage 2

Fast Breeder Reactors

• For the second stage of the Nuclear Power Generation Programme, the Indira Gandhi Centre for Atomic Research (IGCAR) is pursuing development of sodium cooled fast breeder reactors.

• Breeder reactors produce more fuel than they consume.

• The Fast Reactor Programme of IGCAR is supported in its endeavours in a range of disciplines such as reactor engineering, materials science, metallurgy, and safety.

• BARC contributes to the research & development and manufacture of fuels for fast reactors, technology for reprocessing of fuels, waste management and health and safety of the workforce.

Prototype Fast Breeder Reactor

• PFBR is a pool type reactor using a mixed oxide of uranium and plutonium as fuel.

• The coolant used is liquid sodium.

• The project is located 500 m south of the existing Madras Atomic Power Station.

FBR Fuels and Reprocessing

• The U-Pu mixed carbide fuel pins for FBTR and fuel pins for the full core of PFBR were supplied by BARC.

• Electrorefining of U-Pu-Zr-alloy in the molten LiKCIPuCI3 electrolyte was demonstrated at IGCAR.

• Towards reprocessing programme, the operation of CORAL (Compact Reprocessing facility for Advanced fuels in Lead cells) facility provided immense experience in the domain of remote handling & maintenance and in achieving product purity in addition to reprocessing the FBTR fuel.

India Year Book 2017 Crux: Environment Part II

Future FBRs

• A 5/8th scale 90° sector model simulating the hot pool of future FBRs was commissioned for conducting hydraulic studies in water.

• A new facility was commissioned to study the flow induced vibration characteristics of a cluster of sub-assemblies of the core of FBR.

Nuclear Power Programme: Stage 3

Thorium Based Reactors

• Nuclear power employing closed fuel cycle is the only sustainable option for meeting a major part of the world energy demand.

• World resources of thorium are larger than those of uranium. Thorium, therefore is, widely viewed as the ‘fuel of the future’.

• The Indian Nuclear Power Programme Stage-3 aims at using thorium as fuel for power generation on a commercial scale.

• In the thorium fuel cycle, thorium 232 is transmuted into the fissile isotope uranium 233 which is a nuclear fuel.

Advanced Heavy Water Reactor

• As a part of this programme, BARC has been developing a 300 MWe Advanced Heavy Water Reactor (AHWR).

• Fuelled by thorium and using light water as coolant and heavy water as a moderator, this reactor will have several advanced passive safety features.

• The Advanced Heavy Water Reactor (AHWR) equilibrium core cluster having (Th, Pu-U) MOX fuel was re-optimized for better performance.


On the basis of the three-stage plan and assuming optimistic development times, some predictions about nuclear power in India can be made as follows:

• The Integrated Energy Policy of India estimates the share of nuclear power in the total primary energy mix to be around 4% - 6.4% by the year 2032

• A study by the DAE estimates that the nuclear energy share will be about 8.6% by the year 2032 and 16.6% by the year 2052.

At this pace of innovation and research, 30% of the Indian electricity in 2050 shall be generated from thorium based reactors. Indian nuclear scientists estimate that the country could produce electricity for at least four centuries using just the country’s economically extractable thorium reserves.

Moreover, calling for more research into thorium as an energy source and the country’s indigenous three-stage programme prospects the best future results for India.

UPSC IAS Study Material for Civil Services Prelims 2017

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