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Kudankulam 2 goes critical, to generate power in 1 month

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TIRUNELVELI: The long-awaited Unit-2 (Reactor-2) of the Koodankulam Nuclear Power Project (KKNPP) attained criticality at 8.56 pm on Sunday. Speaking to reporters at Koodankulam, Nuclear Power Corporation of India Ltd (NPCIL) Chairman and Managing Director S K Sharma said the KKNPP Unit-2 is the 22nd reactor in the country to attain criticality.

The 163 uranium assemblies in Unit-2 (Reactor-2) were loaded in May. The process took eight days. Following this, containment leak test, reactor pressure vessel, piping line and system equipment test, hydro test and steam generation test were conducted. The test results were submitted to the Atomic Energy Regulatory Board (AERB) for clearance. The clearance for conducting the First Approach to Criticality (FAC) was received in June end. The Tamil Nadu Pollution Control Board also gave its clearance.



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After visiting the nuclear plant to inspect Unit-2 on July 1 and 2, a team from the Ministry of Environment and Forests submitted its affidavit in the apex court on July 8. At 7.52 pm the same day, the criticality process (FAC) began.


Reactor-2 was monitored by Russian experts and specialists from the NPCIL and AERB as it marched towards attaining criticality.

Boron (a neutron absorber) was used in the form of boric acid solution in the primary coolant to keep the reactor in a sub-critical state before attaining criticality. The process of approach to criticality involved gradual dilution of Boron, which allows neutrons in the nuclear fuel matrix to multiply till a controlled self-sustaining nuclear fission reaction was attained.

“Criticality means starting of controlled self-sustaining fission chain reaction (neutron chain reaction). The ground breaking ceremony of the Unit-2 was conducted in 2001 and pouring of concrete was done the next year. After around 15 years, Unit-2 attained criticality for the first time today,” the NPCIL officials said.

As 562.50 MWe power generated from Unit-1 of KKNPP is being allotted to Tamil Nadu, it is expected that the same amount of power will be allotted to the home state from Unit-2. The twin VVER reactors, each of 1,000 MWe electricity generation capacity, were set up in technical collaboration with the Russian Federation. Presently, Unit-1 is in its second cycle of power production.

The AERB had granted clearance for FAC of Unit-1 on July 11, 2013. The plant attained criticality on July 13, 2013, within 48 hours. Unit-1 was synchronised with the Southern Grid on October 22 the same year.

http://www.newindianexpress.com/sta...ins-criticality/2016/07/11/article3523177.ece

http://timesofindia.indiatimes.com/...ate-power-in-1-month/articleshow/53146018.cms
 
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Tenders were released for works related to two more 1200MW plants to come up there , 2 moths ago. Negotiations are on for the 3rd batch of 1200MW reactors too.

Further the first of our own homegrown 700MW reactor is also expected to be commissioned by year end.
 
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A Short note on Voda Voda Energo Reactor (VVER)

KKNPP (VVER 1000) Nuclear Steam Supply System (NSSS).
the NSSS consists of a reactor core, cooled by 4 Primary Circulating Pumps and Steam Generators (Horizontal design). the system pressure is maintained by means of a Pressurizer Unit.
For emergency core cooling, ECCS with High pressure boron water injection and long term circulation by pumps is provided.

upload_2016-7-11_19-19-8.png


Core thermal Power Data

upload_2016-7-11_19-16-58.png


upload_2016-7-11_19-19-35.png


Safety Features of VVER 1000

upload_2016-7-11_19-20-37.png


The containment of VVER 1000 is a double containment made of Prestressed Concrete and is Steel lined. In highly unlikely event of Loss of Coolant Accident, all contamination will be effectively sealed inside the building, thereby ensuring no radiological consequences to plant personnel and outside public.


A MIR-1200 konténmentjének metszete.png


It has also been provided with several safety features such as Core Catcher (a borated steel structure to hold molten fuel or corium, in case of core melt down), Passive Boron water Injection, Passive Decay Heat Removal system (This system can cool down reactor in case of loss of all types of electrical power, by thermo siphoning. this system is a guarantee, that Fukushima Daiichi like event cannot occur at KKNPP).


After protests by local public, Honorable Supreme Court of India, asked GoI to constitute an impartial committee to look after the technical safety aspects of KKNPP. the committee concluded that KKNPP is an extremely safe design. (full Report)
upload_2016-7-11_19-37-10.png



01TH_KKNPP_GKFB_01_2719145f.jpg


@PARIKRAMA @nair @MilSpec @Abingdonboy @ranjeet @Nilgiri @Spectre @Levina @Rain Man @thesolar65 @Robinhood Pandey @Joe Shearer @Vergennes
 

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A Short note on Voda Voda Energo Reactor (VVER)

KKNPP (VVER 1000) Nuclear Steam Supply System (NSSS).
the NSSS consists of a reactor core, cooled by 4 Primary Circulating Pumps and Steam Generators (Horizontal design). the system pressure is maintained by means of a Pressurizer Unit.
For emergency core cooling, ECCS with High pressure boron water injection and long term circulation by pumps is provided.

View attachment 316899

Core thermal Power Data

View attachment 316898

View attachment 316900

Safety Features of VVER 1000

View attachment 316902

The containment of VVER 1000 is a double containment made of Prestressed Concrete and is Steel lined. In highly unlikely event of Loss of Coolant Accident, all contamination will be effectively sealed inside the building, thereby ensuring no radiological consequences to plant personnel and outside public.


View attachment 316903

It has also been provided with several safety features such as Core Catcher (a borated steel structure to hold molten fuel or corium, in case of core melt down), Passive Boron water Injection, Passive Decay Heat Removal system (This system can cool down reactor in case of loss of all types of electrical power, by thermo siphoning. this system is a guarantee, that Fukushima Daiichi like event cannot occur at KKNPP).


After protests by local public, Honorable Supreme Court of India, asked GoI to constitute an impartial committee to look after the technical safety aspects of KKNPP. the committee concluded that KKNPP is an extremely safe design. (full Report)
View attachment 316907


View attachment 316904

@PARIKRAMA @nair @MilSpec @Abingdonboy @ranjeet @Nilgiri @Spectre @Levina @Rain Man @thesolar65 @Robinhood Pandey @Joe Shearer @Vergennes

Has it been specified what will be the expected lifetime of the reactor?
 
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