India to increase uranium production by 10 times

[Indian wonk]

India has plans to increase the output of uranium — the key fuel used in its nuclear weapons program — by ten times by 2031-32 and achieve self-sufficiency, the Department of Atomic Energy said.

India is estimated to have 232,315 tons of uranium contained in deposits of 273,956 tons of tiiuranium octoxide.

Even though the amount of uranium deposits is known, the actual quantity of uranium produced by India from indigenous sources at present is a state secret, as it can be used to calculate the quantity of nuclear weapons that the country makes.

India cannot use imported uranium to make weapons due to restrictions placed by the exporters of the nuclear fuel, and has to depend on indigenous production to fuel its weapons program.

It also uses part of the domestically mined uranium to produce power. Out of about 7,000 MW of nuclear power produced in India, 2400 MW is fuelled by domestic uranium.

India aims to increase the output of uranium soon, the government said.

“Uranium Corporation of India has made a detailed plan in line with DAE’s vision to achieve self sufficiency in Uranium production achieving nearly ten-fold rise in next 15 years (by 2031-32),” the DAE said.

“UCIL has outlined a plan for massive expansion which includes plan to maintain sustained supply from existing facilities, capacity expansion of some existing units and construction of new production centres (mines and plants) in different parts of the country.”

Due to a historical difficulties getting hold of uranium and the relative abundance of thorium deposits in the country, India plans to switch its power generation to thorium by 2050 under its ‘Phase 3’ nuclear program.

India has invested much into developing nuclear reactors based on thorium, of which it has nearly 1 mln tons. It is considered a world leader in Thorium-based technology.

To move to thorium, India has a three-stage nuclear program.

First, it will use normal uranium in Pressurised Heavy Water Reactors.

Then it will use plutonium obtained from these in Fast Breeder Reactors. These Fast Breeder Reactors will create Uranium-233.

In the third stage, Uranium-233 will be combined with Thorium in advanced reactors that are expected to provide the country with enough electricity for 10,000 years.

As of now, India is on the cusp of moving from stage 1 to stage 2. The first fast-breeder reactor (PFBR) — which has been in the making for 30 years — is scheduled to go live in January.

The total production of thorium ores in India has been on the rise in the last three years.

The country produced 80 tons in the year ended March 2015, 330 tons each in the subsequent two years.

Thorium is being produced by Indian Rare Earths Limited (IREL), a PSU under DAE, at Chavara, Kerala; Manavalakurichi, Tamil Nadu and Orissa Sand Complex, Odisha.

 

[RowdyRathore]

MORE Nukes Yes! Yes! Yess!!

 

[Indian wonk]

MORE Nukes Yes! Yes! Yess!!

More nuclear energy bro . And yes that too. See we have increased our Thorium production.

 

[Imran Khan]

Good if they need it

 

[Indian wonk]

Good if they need it

We are an energy hungry country we need all the Uranium (Foreign and Domestic ) we can get.
We are also building 4 reactor indigenous reactors and a further 10 indigenous Made in India reactors and 7 Fast breeder reactors though the FBR will take 15 to 20 years to build

India Approves 10 New Pressurized Heavy Water Reactor Nuclear Units

ndia’s government has given the state-owned Nuclear Power Corp. of India Ltd. (NPCIL) the green light to develop 10 new domestically designed pressurized heavy water reactors (PHWRs).

The approval means that NPCIL, the entity that owns and operates India’s 22 nuclear reactors—a total of 6.2 GW—can begin to site and build 10 more 700-MW PHWR units.

In a statement on May 18, NPCIL called the government’s approval a “mega impetus for nuclear power,” noting that the domestic nuclear industry has “developed capabilities to manufacture and supply equipment and components to exacting standards.” Equipment and services for the new fleet will be domestically sourced, it said.

India wants to ramp up production of power from low-carbon sources and has outlined plans to install a total of 175 GW of renewables by 2022. As of March 2016, about 61% of the country’s installed capacity was coal-fired, 14% came from hydropower, 14% came from other renewables (mostly wind, followed by small hydro and biomass), 8% from natural gas, 2% from nuclear, and 1% from diesel.

India’s PHWR technology is derived from a CANDU design using uranium as fuel. India already operates 18 PHWRs, each rated at either 220 MW or 540 MW, for a total installed PHWR capacity of 4.5 GW. NPCIL, meanwhile, is building four 700-MW PHWRs, two at Kakrapar Atomic Power Station in Gujarat and two at Rajasthan Atomic Power Station. Commissioning activities at the first Kakrapar unit are reportedly underway.

The government’s measure seeks to fast track its three-pronged program—developed largely during the country’s almost 30-year-long isolation from international nuclear trade—and also factors in India’s abundant thorium resources, which constitute 25% of the world’s total reserves.

The first step of the three-stage program involves building indigenously engineered PHWRs and light-water reactors to produce plutonium. The second stage uses fast-neutron reactors fueled by plutonium to breed U-233 from thorium. In the third stage, using wholly indigenous technology, the country will use advanced heavy-water reactors fueled with U-233 obtained from the irradiation of thorium in PHWRs and fast reactors.


http://www.powermag.com/india-approves-10-new-pressurized-heavy-water-reactor-nuclear-units/


Prototype fast breeder reactor to be commissioned in two months: IGCAR director
U Tejonmayam | TNN | Dec 7, 2017, 22:12 IST
Chennai: The country's first 500MW Prototype Fast Breeder Reactor (PFBR) is expected to be commissioned in two months and commercial generation of power is likely to begin by end of 2018. Director of Indira Gandhi Centre for Atomic Research (IGCAR) Arun Kumar Bhaduri announced on Thursday at the 5th International Congress of the International Institute of Welding.

Bhaduri said the reactor, designed by IGCAR as a technology demonstrator, is in the final stage of commissioning. "In two months we will declare the reactor's criticality," he said. The Rs5,400 crore reactor has been built by Bharatiya Nabhikiya Vidyut Nigam Limited (Bhavini) at Kalpakkam.

Bhaduri had earlier said that a series of tests were being conducted in the presence of regulators. "Because this reactor is a first of its kind, we have got four regulators, which is usually not the practice. The idea is to take time and it better rather than make a mistake in haste and repent later," he said.

Simultaneously efforts will be on to build six more reactors each with a capacity of 600MW with a design optimised to low production costs and match WNA safety criteria, the IGCAR director said. "We are looking at constructing six more reactors that we call future fast breeder reactors," he said.

 

[Willy wolly]

Ungli karke dekh liya??? Ab bhugto....

 

[Tumba]

more uranium production does not equals to more nukes... India is a peaceful country..

 

[Indian wonk]

more uranium production does not equals to more nukes... India is a peaceful country..

Our indigenous PHWR reactors are such that More Uranium means More Plutonium which also depends upon our reprocessing capacity which is by the way better than China or Pakistan. More 90% Pu-239 means more Nukes.

 

[Viny]

Entire reason to improve domestic production of uranium are

1. We have to reduce the coal dependence, its poluting as well as the mine goes deeper the cost of coal rises up. Along with it the transportation cost is also a big problem.
2. To generate ample plutonium for starting the Thorium cycle, which india believe to replace coal productions units. With China and US also jumping onto Thorium fuel cycle the new efforts will trigger the migration faster.
3. Reduce dependence on outside world for uranium
4. Found large deposits in Meghalaya, that would make it possible to go 10folds, so utilisizing availability.

 

[RowdyRathore]

More nuclear energy bro . And yes that too. See we have increased our Thorium production.

But thorium tech. is still under test, it'd take some time, if it really works on expectations.

 

[#hydra#]

MORE Nukes Yes! Yes! Yess!!

I want more powerful nukes,megaton H bombs.

 

[RowdyRathore]

I want more powerful nukes,megaton H bombs.

Thermo nukes ranging from 200kt to 1MT is what we need to have in our ICBMs.

 

[BATMAN]

MORE Nukes Yes! Yes! Yess!!

You need more toilets.

 

[#hydra#]

Thermo nukes ranging from 200kt to 1MT is what we need to have in our ICBMs.

USA detonated it's megaton thermo nukes in 50s,see how advanced those countries compares to India. We still wants to increase the number without concentrating on quality.

 

[RowdyRathore]

USA detonated it's megaton thermo nukes in 50s,see how advanced those countries compares to India. We still wants to increase the number without concentrating on quality.

Well, that era was all about superiority over competitor, I'd say the race for survival. They made first rocket in 40's & the moon mission took only couple of years to achieve with 3,25,000 manforce working round the clock.
Buy they can't do the same thing right now even with today tech.
Lack of interest...