MALAYSIA'S response to climate change underpins our international commitments – previously the Kyoto Protocol 1997 (ratified in 2002) which expired in 2020 and thereafter the now the legally binding Paris Agreement 2015 (ratified in 2016) which requires concerted policy focus and action from signatories to ensure the fulfilment of the set objectives and national obligations.
Prime Minister Datuk Seri Ismail Sabri Yaakob stated that the government will continue to uphold Malaysia’s pledge to cut the greenhouse gas (GHG) emissions intensity of the gross domestic product (GDP) by 45% in 2030, even as the country’s contribution is less than 0.7%. (see “12MP: Malaysia committed to becoming carbon-neutral nation by 2050”, The Edge Markets).
Energy demand will continue to rise in tandem with population growth and Malaysia is no exception.
This would mean even higher increasing amounts of GHG emissions released into the atmosphere as a result of the correspondingly increasing energy consumption if the energy mix is not well-diversified or if we’re becoming less energy efficient (e.g., using the same level of energy when it could have been reduced via green and renewable technologies).
The solution is to move and transition towards an energy mix that’s less dependent on conventional sources – so that our Nationally Determined Contribution (NDC) in reducing GHGs by 45% of GDP can be on track (as periodically reported via Malaysia’s National Communication to the United Nations Framework Convention on Climate Change/UNFCCC) – and that we’re heading towards becoming a carbon neutral nation which is doing its part to reduce global warming to 1.5°C.
As part of the wider policy direction, it’s expected that the government is planning to phase out 7-gigawatt coal-fired capacity by 2033.
Coal-fired power plants are currently the backbone of our power generation.
Phasing out coal and replacing it with natural-gas-powered generators can reduce carbon dioxide (CO2) emissions by up to 67% (see “Power Play: This Plant in Malaysia Can Now Provide the Equivalent of 10% of The Country’s Electricity Needs”, ge.com).
And in addressing the wider policy issue (of increasing our energy mix), the government has hammered out a plan to boost the share of renewable energy (RE) of the country’s installed capacity (currently at 8,700 megawatts) by up to 31% in 2025 and 40% (equivalent to 18,000 megawatts) in 2035 under a power generation plan (see “Malaysia aims 31% RE capacity by 2025”, Mida, 2021).
Notwithstanding, over the years, the deployment of RE technologies such as hydroelectric power has been alleged to have caused ecological destruction as in the case of Bakun dam (the largest in Malaysia). Solar energy is also insufficient due to the inherent intermittency and non-dispatchable nature of its generation.
For this reason, it’s not hard to understand why nuclear power as the alternative clean (and “sustainable”) energy is still the preferred option for some policymakers.
In Malaysia, nuclear and atomic research began as early as 1972 with the setting up of the Centre for Application of Nuclear Energy (Crane)/Malaysian Institute for Nuclear Technology (Mint) which is now known as the Malaysian Nuclear Agency under the auspices of the Ministry of Science, Technology and Innovation (Mosti).
As it is, there’s no consensus on whether nuclear power can be deemed to be a type of renewable energy. For some, it’s better denoted as recyclable energy.
This is perhaps one reason why as to whether nuclear power plants (NPP) should be integrated into a broader energy mix in Malaysia to improve energy security and to meet the target of becoming a carbon neutral country by 2050 while not causing ecological burden is still up in the air.
In 2009, then Prime Minister Najib Razak announced a plan to have a small-scale nuclear reactor with the view of potentially deploying nuclear energy as an option which was also outlined and highlighted under the 10th Malaysia Plan (2011-2015) (see “Nuclear Power Plant Development in Malaysia”, Mely Caballero Anthony, Centre for Non-Traditional Security Studies/NTS Report, Rajaratnam School of International Studies/RSIS).
To appreciate the scale and scope of nuclear power energy, according to Swiss Energy Scope, “it takes almost 700 wind turbines to replace the electricity production of a NPP …”.
Generally, as highlighted by the European Nuclear Society (ENS), with a complete combustion or fission:
• approximately 8 kWh of heat can be generated from 1 kg of coal, but
• around 24,000,000 kWh of heat from 1 kg of uranium-235.
Uranium-235 contains two to three million times the energy equivalent of coal.
Thus, 1 kg uranium corresponds to nearly 14,000 kg of coal and enables the generation of 45,000 kWh of electricity.
The downfall of the ancien régime (old order) of the hegemon Barisan Nasional (BN) in 2018 saw a renewed policy interest in the energy mix strategy. But the focus on renewable technologies under the Pakatan Harapan (PH) government hindered progress in developing NPPs due to concerns over radioactive waste.
The PH Minister for Energy, Science, Technology, Environment and Climate Change YB Yeo Bee Yin was adamant that Malaysia doesn’t need to build NPPs or explore nuclear energy. She also announced that the Malaysia Nuclear Power Corporation would be shut down.
The policy mood was set against the backdrop of palpable and mounting anger towards Lynas Sdn Bhd’s (an Australian rare earth mining company) permanent disposal facility (PDF) for radioactive waste storage due to its location and environmental concerns.
The Malaysian Atomic Energy Licensing Board (AELB) had arbitrarily established its own radiation exposure safety criteria which was not in accordance with international standards. This provision was utilised by Lynas to claim that its low-level radioactive wastes are secure and safe. All of this further contributed to the bias against radioactive waste, including particularly in relation to nuclear power.
What’s not often highlighted is that, based on empirical findings, coal ash generated from conventional coal-fired plants is more radioactive than nuclear waste (see “Radiological Impact from Airborne Routine Discharges of Coal-Fired Power Plant” by Norasalwa Zakaria, et al).
To quote from the article, “… when coal is burned, uranium and thorium are concentrated at up to a few times their original levels. In fact, the fly ash emitted from burning coal for electricity by a power plant … [has]100 times more radiation than a nuclear power plant producing the same amount of energy” (p 5).
Uranium (on its own) and thorium (in conjunction with a fissile material such as recycled plutonium) are, of course, widely used fuel for nuclear fission which in turn provides the heat that produces the steam which spin the turbines for power generation in NPPs.
Despite the images of hazardous signs conjured up, nuclear power is still considered as the cleaner and safer source of energy (zero GHG emissions). Whereas the externalities in the form of GHGs produced from conventional energy pose greater health risks and kill more people surreptitiously.
The issue, of course, narrows down to the radioactive waste and risks of nuclear and radiation accidents.
In other words, the management of radioactive wastes and measures to minimise the risk of incidents.
On the former, instead of thinking purely in disposal and storage (capacity) terms, we should have a paradigm shift and go for recycling/reusing the usable parts of the fuel.
The rest of the wastes (i.e., non-usable parts) can be reprocessed into less hazardous materials to be safely disposed and stored by way of vitrification (i.e., converting nuclear waste into solid, stable glass).
The 2011 Japanese earthquake and tsunami which also destroyed the Fukushima Daiichi NPP reactors and the concomitant release of low-level radiation did not result in mortalities. In 2018, the Japanese authorities confirmed that only one NPP worker has reportedly died from lung cancer as a result of the radiation (see “What was the death toll from Chernobyl and Fukushima”, Our World in Data, 2017).
It’s notable that Chernobyl and Fukushima did not have "fail-safe" designs and that the safety concerns and operational risks were never seriously addressed. They were also constructed back in the 1970s based on the prevalent technologies then (see “Three Accident that derailed the nuclear power industry”, Forbes, 2019).
To quote from “The New Technologies for the Construction of Nuclear Power Plants” (New Developments in Atomic Energy Research, Jorge Morales Pedraza, pp.1-87, January, 2013): “… [T]he type of nuclear power reactors in operation in the Fukushima [NPP] was of the boiling water reactor type constructed in the 1970s but without the changes … to modify some failure in the design”.
Post-Fukushima safety standards have improved ever since including the adequacy of station design for external hazards, emergency planning onsite and offsite, etc. (see “Five Years after the Fukushima Daiichi Accident: Nuclear Safety Improvements and Lessons Learnt”, Nuclear Energy Agency, OECD/ Organisation for Economic Co-operation and Development).
Many of the NPPs are now equipped with advanced technologies such as small modular reactors (SMRs) and rely more on passive systems (automatically bringing the reactor to a safe shutdown mode during disaster events without the need for external intervention, i.e., operator action).
Furthermore, NPPs can be positioned offshore.
Russia is the pioneering example with its floating combined heat and power (CHP) nuclear power plants. As these NPPs are not static (“centralised”) in one place, they can be readily mobilised and relocated to other places during emergencies or incidents/accidents.
It’s not surprising that the International Atomic Energy Agency (IAEA) has claimed that global interest towards nuclear power continues to be strong especially in the developing world (see “Energy, Electricity and Nuclear Power Estimates for the period up to 2050”, IAEA, Reference Data Series No. 1, 2020 Edition).
In conclusion, what we need is a paradigm shift to re-envision the deployment of nuclear power for Malaysia.
Jason Loh and Hazriq Iqmal Abdul Aziz are part of the research team of EMIR Research, an independent think tank focused on strategic policy recommendations based on rigorous research.
** The views and opinions expressed in this article are those of the author(s) and do not necessarily reflect the position of Astro AWANI.
Astro Awani
Fri Aug 19 2022
The issue narrows down to the radioactive waste and risks of nuclear and radiation accidents. - REUTERS/Filepic
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