Can Nuclear Power Meet the Challenge U C Muktibodh Executive Director (Engg.) NPCIL 6 th Nuclear...
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Transcript of Can Nuclear Power Meet the Challenge U C Muktibodh Executive Director (Engg.) NPCIL 6 th Nuclear...
Can Nuclear Power Meet the Challenge
U C Muktibodh
Executive Director (Engg.)
NPCIL
6th Nuclear Energy Conclave, New Delhi
14 Oct. 2014
Can Nuclear Power Meet the Challenge ?
YES
NPCIL Plants Performance
2009-10 2010-11 2011-12 2012-13 2013-140
5000
10000
15000
20000
25000
30000
35000
40000
18803
26472
32455 3286334228
GROSS GENERATION Gr
oss G
ener
ation
(MU
s)
2009-10 2010-11 2011-12 2012-13 2013-14 0
10
20
30
40
50
60
70
80
90
100
60.8
71.37
78.95 80.1683.49
CAPACITY FACTOR
Capa
city
fact
or (%
)
2009-10 2010-11 2011-12 2012-13 2013-140
10
20
30
40
50
60
70
80
90
100
91.7888.67
91.12 90.4388.2
AVAILABILITY FACTOR
Ava
ilabi
lity
fact
or (%
)
RAPS-5 TAPS-2 KAIGA-2 TAPS-3 KAIGA-1 KAPS-2 MAPS-2 KAIGA-1 KAPS-2 RAPS-3 KAIGA-2 RAPS-4 RAPS-4 KAPS-10
100
200
300
400
500
600
700
800
900
765
590
529 522486
457432 415 407 404 402 394
373 370
CONTINUOUS RUN OF NPCIL UNITS > 365 DAYS
Present Status of Nuclear Power
20 reactors (18 PHWRs+2BWR) 4,780 4,780
PHWR Projects under construction 4,200 8,980 KAPP-3&4 (2x700 MW) RAPP-7&8 (2x700 MW)
GHAVP-1&2 (2x700 MW)
PWR projects under advanced stage of 2,000 10,980 completion : KK-1&2 (2x1000 MW)
PWR projects under Construction 2,000 12,980 KK-3&4 (2x1000 MW)
PFBR under construction at 500 13,480 Kalpakkam (1 X 500 MW)
CAPACITY (MW)
CUMULATIVE CAPACITY(MW)REACTOR TYPE AND CAPACITY
• 2 x 700 MW PHWR : Chutka, MP • 2 x 700 MW PHWR : Kaiga, Karnataka• 4 x 700 MW PHWR : Mahi-Banswara, Rajasthan• 2 x 700 MW PHWR : Gorakhpur, Haryana (Additional Units)
• 4 x 700 MW PHWR : Bhimpur, MP • 2 x 1000 MW LWR : Kudankulam, TN (Additional Units)
• 6 x 1650 MW LWR : Jaitapur, Maharashtra• 6 x 1500 MW LWR : Kovvada, AP• 6 x 1100 MW LWR : Mithi Virdi,Gujarat• 6 x 1000 MW LWR : Haripur, WB• 2 X 500 MW FBR : Kalpakkam, TN• 1 X 300 AHWR : Site being identified
Nuclear Capacity - Planned
Implementation of this large capacity build-up requires equity support from the Government
Implementation Aspects
PHWR Programme
• Standardised design of 700 MWe plant having enhanced safety features, including post-Fukushima upgrades
• Seismic designs for rock sites and soil sites• Plant detailed engineering in digitised form
Stages in Nuclear Power Project Implementation
In-principle approval
Pre-project Activities CRITICALITY
Power Operation
Land Acquisition MoEF Clearance Geological &
Seismo-tectonic studies
Siting Clearance
Engineering
Construction & Commissioning
Financial Sanction Procurement
4 to 6 Years 1 to 2 Years 6 To 7 Years
11 To 15 Years
Site-specific seismic parameters
Supply of Major Equipment
What needs to be done…
• Reduce time for pre-project activities– Encourage and support the National Institutes to carry out geological
& seismo-tectonic studies in a time bound manner– Expeditious land acquisition – Government support
• Policy decision on advance procurement of long-delivery equipment for the projects approved in-principle
• Financial support from Government
The programme needs to be implemented in a National mission mode.
Thank You