The
Department of Atomic Energy is an integrated group of multi-disciplinary organisations comprising of 5 research centres,
3 industrial organisations, 5 public sector
undertaking and 3 service organisations. It has two
boards for funding extra–mural research in nuclear and allied fields and
mathematics. It also supports 9 autonomous institutes. The main drivers of its
activities have been relevance to meet the national needs and priorities and
excellence by global standards. Last year witnessed landmark achievements,
impressive growth in programmes, and major initiatives covering
a wide spectrum.
Nuclear
Power Programme
Construction of two new nuclear
power reactors viz. Rajasthan Atomic Power Project – Unit 5&6 (220 MWe each) was completed and they commenced commercial
operation. With this the total number of nuclear power reactors in operation in
the country has become 19 with total installed capacity of 4560 MWe. In all, 18, 800
million units of electricity was generated through
these reactors during the year 2009-10.
Construction
work for Kaiga Unit 4 (220 MWe)
is complete and it is expected to be commissioned soon. Two light water
reactors (1000 MWe each) being built in collaboration
with the Russian Federation at Kudankulam in Tamil
Nadu are in advanced stage of completion and are also expected to be
commissioned within this year. The 500 MWe
Prototype Fast Breeder Reactor (PFBR) the world’s second largest fast breeder
reactor being constructed at Kalpakkam in Tamil Nadu
has achieved more than 55 % physical progress.
Consequent
on the accord of administrative and financial sanction by the Government, the project works
on Kakarapar Atomic Power Project-3&4
(KAPP-3&4, 2x700 MWe PHWRs) and Rajasthan Atomic
Power Project-7&8 (RAPP-7&8, 2x700 MWe PHWRs)
were started. The first pour of concrete for these four reactors is planned
within this year.
Pre-project
activities such as statutory clearances, land acquisition related activities,
etc. on Kudankulam Nuclear Power Project
(KKNPP-3&4, 2x1000 MWe LWRs) were initiated. In
respect of Jaitapur Nuclear Power Projects (JNPP-1&2,
2x1650 MWe LWRs) the land acquisition is in advanced
stage.
The
Government accorded “In principle” approval for five Green Field Sites that
include two inland sites (Kumharia, Haryana and Bargi, Madhya Pradesh) for setting up six 700 MW indigenous
PHWRs, and three coastal sites (Haripur, West Bengal,
Mithi Virdi, Gujarat and Kovvada, Andhra Pradesh) for setting up eighteen 1000 MWe or larger size LWRs based on international cooperation.
Sanction for capacity expansion at Kudankulam (to a
Capacity of : 6x1000, LWRs) and Jaitapur
(Capacity : 6x1650 MWe LWRs) sites was also accorded
by the Government.
Fuel
Cycle Activities
Uranium
Exploration - Over 14,875 tonnes
(U3O8) of
additional uranium resources were established in Andhra Pradesh at Tummalapalle and adjoining blocks, Kadapa
district, Peddagattu and Chitrial,
Nalgonda district, Koppunuru,
Guntur district, at Rohil, Sikar
district, Rajasthan and Lostoin, West Khasi Hills district, Meghalaya. The country’s uranium resources have been
updated to 1,40,296 tonnes
of U3O8.
Uranium
Mining & Processing
- With the increased
demand of uranium for the country’s nuclear power programme,
UCIL took up Mohuldih Uranium Mining Project in the Saraikela-Kharsawan district of Jharkhand, Tummalapalle Uranium Mining & Milling Project in Andhra
Pradesh and Exploratory Mining at Gogi in Karnataka.
Fuel
Fabrication - Highest ever production of PHWR fuel
bundles, Zirconium sponge, PHWR fuel tubes, rod material & Niobium metal
was achieved at the Nuclear Fuel Complex, Hyderabad.
The Zirconium Complex at Pazhayakayal, Tamil Nadu was
inaugurated following the successful trial production of Zirconium Oxide. NFC successfully executed an order received from IAEA
against global competition for
manufacture, supply, erection and
commissioning of fuel element end-cap welding unit to Turkish Atomic
Energy Authority.
Country’s
first two industrial scale production facilities for enriched boron, required
for the fast breeder reactors, were commissioned at Talcher and Manuguru. These are based on exchange distillation and ion
exchange chromatography respectively. A plant for converting the enriched KBF4
into elemental Boron based on the process of electrolysis was also set up at
HWP, Manuguru.
Heavy
Water - The capacity utilization of heavy water
plants, during the year 2009-10, exceeded 100%. During the year, Heavy Water
Board bagged the sixteenth export order for supply of 11 MT heavy water to M/s
KHNP, South Korea.
Fuel
Reprocessing & Waste Management - At the
Compact Reprocessing facility for Advanced Fuels in Lead cells (CORAL), Kalpakkam, the spent fuel subassembly from FBTR with a burnup of 155 GWd/t was
reprocessed and the fissile material was re-fabricated as fuel and loaded back
into the reactor. This marked the successful closing of the fast reactor fuel
cycle.
Selective
extraction of cesium and strontium from waste radioactive solutions,
was successfully carried out at Kalpakkam. These
fission products have wide ranging applications as radiation sources.
Radiation
Technologies and Their Applications
Nuclear
Agriculture - Under the Nuclear Agriculture programme, four new mutant varieties were notified for
commercial cultivation, taking the total number of mutant varieties developed
by BARC using radiation techniques to 39. The new varieties include two of
ground nut (TG 39 & TG 51) and one each of pigeon-pea (TJT 501) and pairymung (TM 2000-2).
Radiation
Processing of Food - The interest of entrepreneurs in using
radiation technology for hygienising and preserving
food and allied products is increasing. The eighth radiation processing plant
in private sector in the country at Bhiwadi in
Rajasthan, was completed and trial run was started. For
this, the 100 kCi sealed radiation source was
supplied by Board of Radiation and Isotope Technology (BRIT).
Radiation
technology has also helped India
in increasing its exports of food items to many countries including the most developed ones. More than
2400 MT of spices and other products were processed at the Radiation Processing
Plant, Vashi during the last financial year. BRIT signed a tripartite agreement with the
Maharashtra State Agricultural Marketing Board (MSAMB) and BARC for service
operation of KRUSHAK
Irradiation Facility at Lasalgaon, Nashik by MSAMB, for
3 years. The facility was
upgraded for multi-tasking covering wide range of food products
requiring low dose to medium dose exposure.
Nuclear
Medicine & Healthcare - Two
radiopharmaceutical agents viz.177Lu-EDTMP, as a bone pain palliative and
177Lu-DOTA-TATE as a radiotherapeutic agent for neuroendocrine tumours, have been
developed recently at BARC.
The
contract for monoclonal antibody (ch TNT 1/B)
labeling wing with Iodine-131 by BRIT for M/s. Peregrine Pharmaceuticals Inc., USA was further
extended for 2010. At BRIT, a
user-friendly IRMA kit for Luteinizing hormone (LH) based on in-house produced magnetizable cellulose particles was developed.
Bhabhatron
teletherapy machine for cancer therapy developed by Bhabha Atomic Research Centre was donated to Vietnam as per
an agreement between International Atomic Energy Agency, and Socialist Republic
of Vietnam. The machine was inaugurated at Can Tho
Oncology Hospital in Vietnam
on April 28, 2010. It would serve a large number of cancer patients in Mekong
Delta and other southern regions of Vietnam.
Various
Technologies
Desalination
& Water Treatment Technologies - The barge
mounted Mobile Seawater Reverse Osmosis Desalination Plant of 50 kilo-litres capacity, developed by BARC, was
registered under the name ‘SUJAL’. The next generation Ultra Filtration based
iron removal unit, developed by BARC, was deployed at the Central Glass &
Ceramic Research Institute, Kolkata for field testing. It produced safe
drinking water (with less than 0.3 ppm iron content
as per WHO) from contaminated water having iron level upto 6 ppm.
Computing
Technology - At BARC, two Computing Clusters with
performance ratings of 700 GFLOPS (giga floating
points operations per second) and 1.4 TFLOPs (tera
floating points operations per second) were built for supercomputing technology
evaluation. Also, a 1 TFLOP computing cluster was commissioned for specific
high pressure physics applications. IIT-Kanpur and BARC jointly developed a solver software “AnuPravaha” for
computational fluid dynamics to create a finite volume based solver to solve Navier- Stokes and associated scalar equations to be used
for engineering applications.
A parallel
high-performance supercomputing cluster has been commissioned by IGCAR to cater
to the large-scale numerical computational requirements of users in the areas
of computational molecular dynamics, material modelling,
reactor core calculations & safety analysis,
weather modelling and computer aided engineering
applications. An advanced visualization centre, a world-class fully immersive
system has also been commissioned at IGCAR to visualize the models of fast
breeder reactors and associated fuel cycle facilities.
Nuclear Submarine -An
important
milestone was crossed when the indigenous nuclear submarine INS Arihant was
launched in 2009. This demonstrated indigenous capability in building compact
nuclear power plant meeting exacting and difficult to realise
specifications. Its land based version at Kalpakkam
that was operational earlier, continued to perform well.
Technology
Transfer -The spin-off technologies developed and demonstrated at BARC and
transferred to the public domain for further commercial proliferation, include
back washable Spiral Ultrafiltration Technology for
domestic and industrial water purification, Multichannel Accoustic
Emission Analyser Technology, UF Membrane assisted
process technology for arsenic removal from ground/surface water, Hand held
Tele-ECG instrument, Image Analysis System etc. Twelve new MoU’s
were executed between BARC and other agencies for the development of
technologies of mutual interest.
Intellectual
Property Rights - During
the year 2009, DAE filed 18 patent applications including 4 in India, 5 under Patent Cooperation Treaty (PCT),
3 in USA, 2 in Canada, and 1 each in South
Africa, Japan,
Australia and France. During this period, 9 of the
previously filed patents were granted to the Department. So far, DAE has filed
219 applications including PCT and national phase applications. Of these, 121
patents have been granted. 64 patents are in force at present.
Societal
Initiatives
The
Fight Against Cancer - For creating a better network between the
Tata Memorial Hospital
and the cancer institutions all over the country, an Apex Committee was formed
under the chairmanship of Director, TMC. The Apex Committee deliberated on
indigenous development and manufacturing of the equipment related to radiation
oncology such as Cobalt-60 Teletherapy Machine, Low
Energy Linear Accelerator, High Energy Linear Accelerator, Brachytherapy, etc.
The initiatives taken will lead to further gains in the DAE’s outreach in the
cancer care programme.
DAE has
signed the Third Tripartite Agreement with the North-Eastern Council and the
Government of Assam, for the revitalization of the Dr. B. Barooah
Cancer Institute (BBCI), Guwahati. This hospital is a
Regional Cancer Centre (RCC) for cancer treatment and control in the
North-Eastern Region. The Department’s total share as per the Tripartite agreement is approximately Rs.10.45 crore, for revitalization of the BBCI.
Advanced
Knowledge and Rural Technology Implementation (AKRUTI)- Under this BARC initiative,
five new AKRUTI nodes were set up at different states in the country, taking
the total AKRUTI nodes to 15. A miniature commercial tissue culture laboratory
for AKRUTI-CARD at Anjangaon-Surji, Amravati was completed for initiating tissue
culture production of banana plants. Isotope hydrological investigations on a
few water resources development and management related issues such as
recharging of springs, groundwater augmentation by artificial recharge,
groundwater salinity and pollution etc. were initiated at six sites in Maharashtra.
BARC-Centre
for Incubation of Technology (BARCIT) -
This centre started functioning with the setting up of four Incubation Cells
that include Electron Beam Welding Technology, Water technology, Food
technology and Medical and Laboratory equipment development technology.
International
Research Collaborations
An all
solid state bouncer compensated modulator developed at RRCAT for a CERN
experiment achieved rated specifications and was accepted by the CERN team. To
qualify the development of subsystems, electronics and components for pulsed H-accelerators
programme, a pulsed 1.3 MW 352.2 MHz test stand was
built around a klystron obtained from
CERN.
RRCAT
fabricated two prototype 1.3 GHz single cell superconducting cavities in
collaboration with the Inter University Accelerator Centre (IUAC), New Delhi and shipped to Fermi Lab, USA.
Under the
INPRO programme, an international benchmark exercise
was undertaken to evaluate the reliability of Passive Decay Heat Removal system
(PDHR) of 2400 MW(thermal) French Gas cooled Fast
Reactor. BARC is using its Assessment of
Passive System Reliability (APSRA) methodology for evaluating the reliability
of the PDHR.
Several
physics and engineering experiments were carried out with international
collaboration in the French PHENIX fast reactor before its permanent shut down,
mainly for validating the data and computer codes used for reactor design and
operation.
International
Relations
Some
notable bilateral agreements during the year 2009-10 took place:
· Agreement between the India and the
Government of Republic of Namibia on cooperation in Peaceful Uses of Nuclear
Energy.
· Memorandum of Understanding between India and the Nuclear Energy
Agency, Regulatory Agency of the Government of Mongolia, on cooperation, in the
field of Peaceful Use of Radioactive Minerals and Nuclear Energy.
· Agreement for cooperation between India and the
European Atomic Energy Community in the field of Fusion Energy Research.
· A joint declaration by India and the United Kingdom on Civil Nuclear
Cooperation.
· Agreement between the Government and the Government of the Russian Federation
on Cooperation in the Use of Atomic Energy for Peaceful Purposes
· Road Map for the Serial Construction of
the Russian design Nuclear Power Plants in India.
· Agreement between the Government and the
Government of Canada
for Cooperation in Peaceful Uses of Nuclear Energy
The Department
of Atomic Energy, through its untiring efforts during last more than five
decades, has earned India
the status of an advanced country in the field of nuclear science and
technology. DAE, in the times to come has to march ahead with even more vigour to overcome the challenges of providing enough
electricity, food and water and also better health care and environment to the
Indian people. With its large pool of dedicated scientists and engineers and
supporting personnel, there is no doubt that the Department will be
successfully able to meet all challenges and stride much greater heights while
meeting its commitments to the country. (PIB Features)
RTS/VN
SS-130/SF-130/06.08.2010