Critical Nuclear Issues In South Asia

Consensus is unlikely in the nuclear debate but openness can evolve better policies and implementation, says Nalaka Gunawardene.

AsianScientist (Mar. 3, 2015) – By Nalaka Gunawardene – South Asian countries are stepping up using and collaborating in civilian nuclear technologies. In pursuit of new opportunities, however, it is imperative that governments address safety concerns adequately.

Greater public understanding is also needed so that people can distinguish between nuclear weapons, nuclear energy generation and other nuclear applications in various spheres of development. Right now, conflation is common which, in turn, causes confusion.

Nuclear matters have long been contentious in India and Pakistan due to government secrecy surrounding military applications. Both countries possess home-built nuclear weapons, but neither has signed the Treaty on the Non-Proliferation of Nuclear Weapons which came into force in 1970. Specifics of their arsenals thus remain unknown.

Nuclear energy activities are somewhat more open, though no less controversial. Both India and Pakistan have functional nuclear power plants which generate around four percent of electricity in each country.

Opinion is divided on the cost-benefits of nuclear power. Environmental and radiation safety issues have come into sharp focus since Fukushima nuclear accident in Japan in 2011 and some new plants in South Asia have drawn sustained public protests.

Eclipsed by these debates is the use of radioactive isotopes in agriculture, food preservation, water management, healthcare and industrial processes. Beneath media’s radar, these have been going on for decades.

Our challenge is to scale up these applications while increasing the entire sector’s transparency and public accountability. Sustainable development would falter without such public trust.


Bilateral cooperation

Bilateral cooperation in civilian nuclear technologies has been increasing, both among the eight member countries of South Asian Association for Regional Cooperation, as well as between some of them and industrialized countries.

Among the most widely reported is the Indo-US civil nuclear agreement of 2007. Through this, India agreed to separate its civil and military nuclear facilities and to place the civil nuclear facilities under International Atomic Energy Agency (IAEA) safeguards. In exchange, the US agreed to work toward full civil nuclear cooperation with India.

During the January 2015 visit of U.S. President Barack Obama, the two countries, agreeing on the limits of nuclear liability, advanced this process further.

As with its space program, India has the most advanced nuclear technologies in South Asia. It has begun sharing that expertise with some neighboring countries—perhaps as a way of countering China’s own efforts in this respect.

On February 16, 2015, India and Sri Lanka signed a bilateral agreement to cooperate in peaceful uses of nuclear technology. Under this, India will help the island nation build its nuclear energy infrastructure, upgrade existing nuclear technologies and train specialized staff. The two countries will also collaborate in producing and using radioactive isotopes.

According to the Reuters news agency, “India could also sell light small-scale nuclear reactors to Sri Lanka which wants to establish 600 megawatts of nuclear capacity by 2030”.

Sri Lanka has no nuclear reactors, even though the option has been under discussion for some years. It generates electricity from hydro and thermal (coal and diesel) power plants.

The full text of the Indo-Sri Lanka nuclear agreement has not been made public. Sri Lanka’s minister of power and energy clarified that it does not allow India to unload any radioactive wastes in Sri Lanka. He also assured that all joint activities will comply with standards and guidelines set by the IAEA.

Sri Lanka has already signed a memorandum of understanding on nuclear cooperation with Russia, while another with Pakistan is being worked out. Similarly, Bangladesh forged an agreement with Russia for the building of two 1,000 megawatt reactors, with construction for the first to begin in 2015.

Pakistan, meanwhile, has been forging closer nuclear cooperation with China, building on decades of atomic research links going back to the 1970s.

In November 2013, Pakistan started building a nuclear power complex in Karachi with China’s help. The US$ 9.59 billion facility, when completed in six years, will generate 2,200 megawatts of electricity — which is much needed to reduce chronic power shortages.

Since then, media reports have talked of China planning to set up three more nuclear reactors in Pakistan.

The New York Times saw Sino-Pakistani civil nuclear cooperation as a “growing counterpoint to [the] nuclear axis between the US and India in recent years that Pakistani officials have seen as an irritant and Chinese officials have seen as a geopolitical challenge”.

Ansar Parvez, chairman of the Pakistan Atomic Energy Commission, says Pakistan aims to generate 8,800 megawatts of nuclear energy by 2030. But Pervez Hoodbhoy, a Pakistani nuclear physicist and social activist, cautions that his country is treading on dangerous ground.

He recently wrote: “The reactors to be built in Karachi are a Chinese design that has not yet been built or tested anywhere, not even in China. They are to be sited in a city of 20 million, which is also the world’s fastest growing and most chaotic megalopolis. Evacuating Karachi in the event of a Fukushima or Chernobyl-like disaster is inconceivable.”

Hoodbhoy argues that Pakistan should instead invest in renewable energy sources, taking advantage of recent advances in photovoltaic technology, efficient windmills and smart grids. He points to India’s goal of developing a solar capacity of 100,000 megawatts by 2022.


Public fears

Putting the nuclear genie back in the bottle is not realistic. Instead, it now needs to be managed carefully.

Following the Fukushima disaster, public apprehensions on the safety of nuclear power plants have risen. Governments must be sensitive to public fears and protests even as they seek to ensure long-term energy security.

For example, the Kudankulam Nuclear Power Plant in Tamil Nadu, southern India—which started supplying to the national power grid in mid-2013—has attracted sustained public protests for several years.

Local people have radiation safety concerns—shared by Sri Lanka, located only a small stretch of sea away.

At one point, former Indian Prime Minister Manmohan Singh blamed foreign-funded non-governmental organisations for causing delays in commissioning the plant. He saw protests as being orchestrated by “groups that did not appreciate India’s growing energy requirements”.

Praful Bidwai, one of India’s leading anti-nuclear activists, says the protests have tested his country’s democracy. He has been vocal about the violent police response to protestors.

As with genetically modified organisms, polarised opinions and entrenched positions characterise the nuclear debate. Consensus is unlikely, but greater openness can help evolve better policies and implementation.


Nalaka Gunawardene is a Colombo-based science writer, blogger and development communication consultant. He is also a trustee of SciDev.Net. The views in this column are his own.

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Source: SciDev.Net.
Disclaimer: This article does not necessarily reflect the views of AsianScientist or its staff.

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