Consumption of one fossil fuel over another will, on its own, not offer a long-term solution to climate change, but employing less emission-intensive fuels can reduce pollution significantly
As the winter approaches, Delhi-NCR is under its annual envelop of smog. Caused by an unhealthy combination of low wind speed, change in wind direction, dip in temperatures and stubble burning in parts of North India, air pollution is back in the headlines and our daily lives. According to a study of 28 cities by IQAir and Greenpeace Southeast Asia, air pollution in Delhi-NCR was linked to the loss of an estimated 24,000 lives and 5.8 per cent of its Gross Domestic Product (GDP) in the first two quarters of this year, despite a strict COVID-19 lockdown since March. In fact, the linkage between rising air pollution levels and increase in COVID 19-related cases and deaths is being confirmed by several studies from around the world.
A recent study published in Cardiovascular Research, which was the first of its kind to distinguish between fossil fuel-related and other human-generated sources of air pollution, estimated that long-term exposure to air pollution has been linked to an increased risk of dying from COVID-19. The study estimated that about 15 per cent of deaths worldwide from the virus could be attributed to long-term exposure to air pollution. In Europe, the proportion was about 19 per cent, in North America it was 17 per cent and in East Asia about 27 per cent.
A recent study by Harvard University indicated that an increase of only one microgram per cubic metre in PM2.5 is associated with an eight per cent increase in the Coronavirus death rate. Long-term exposure to chronically-high PM2.5 levels weakens the ability of the lungs to fight off infections, therefore making people more susceptible to COVID complications.
In 2016, the national Capital ranked third on a list of cities around the world reporting close to 15,000 deaths due to air pollution. Shanghai was ranked first among the cities with most premature deaths at 17,600, followed by Beijing with 18,200 premature deaths due to PM2.5 pollutants. A study undertaken by Lancet Planetary Health the following year stated that Delhi had recorded the highest annual population-weighted mean PM2.5 levels in its air. Further, in 2019, the World Air Quality Report, compiled by IQAir, listed Delhi on top of the list of the capital cities with most polluted air for the second consecutive year with annual PM2.5 levels nearly 10 times the limit prescribed by the World Health Organisation (WHO). Other prominent NCR cities were also listed among the top 10 cities in the world with most polluted air.
Source apportionment studies, such as the ones conducted by IIT Kanpur (2013-2014) and National Environmental Engineering Research Institute (2017), have pointed out that secondary particles are a significant contributor to PM10 and PM2.5 concentrations in Delhi-NCR, with industrial point sources being the top four major contributors to PM2.5. Polluting fuels such as coal, diesel, pet coke and heavy fuel oil used by industries in Delhi-NCR are a major reason for this.
In such a dismal scenario, natural gas provides a good alternative to not only meet the energy needs of industries, but also as a less polluting option that can contribute to addressing environmental problems. The burning of natural gas for energy results in lower emissions of green house gas (GHG), Carbon Dioxide (CO2) and nearly all types of air pollutants in comparison to burning coal or other fossil fuels to produce an equal amount of energy. However, natural gas has not seen much penetration in industries, especially those situated in Delhi-NCR. According to British Petroleum, India’s share of natural gas in the energy mix is lower than many large economies. It had reached a mere 6.2 per cent in 2019; this when the Government aims to raise the share of natural gas in the country’s energy mix to 15 per cent by 2030.
Switching to natural gas and displacing polluting fuels has contributed to lower GHG emissions and improved air quality in New York, Toronto and Beijing, according to a 2015 report by the International Gas Union (IGU). The benefits of increasing the use of cleaner-burning natural gas in the industry were acknowledged and put into force by policymakers in Northern China in 2017 where the shift from coal to natural gas in industries led to extensive reduction in GHG and air pollution. In Turkey, the industry around Istanbul, too, witnessed a reduction in air pollution as a result of switching from coal-lignite to natural gas in the early 2000s.
According to the 2019 World Energy Outlook special report analysis, an estimated 98 per cent of natural gas consumed today has lower life cycle emissions intensity than coal, when used for power or heat. The analysis incorporates both CO2 and methane emissions and indicates that, on an average, coal-to-gas switching reduces emissions by 50 per cent when producing electricity and by 33 per cent when used for heating purposes.
The Energy and Resources Institute (TERI) in 2019 had assessed the potential and impact of a switch to natural gas from heavier polluting fuels among Micro, Small and Medium Enterprises (MSMEs) units operating in Delhi-NCR. Data collected showcased the presence of thousands of MSME units operating in this region and using a variety of fuels ranging from coal to low sulphur heavy stock, light diesel oil, wood, bagasse, rice husk, other biomass fuels, high-speed diesel and natural gas. By and large, MSMEs were found to be disinclined to migrate to natural gas owing to high upfront costs such as connection costs and security deposit, limited access to natural gas and economic viability in terms of increased unit price compared to other fuel options. To add to this, end users were also charged a conversion cost and had to bear the cost of internal piping infrastructure.
Obtaining the right of way and other clearances from State/local Government to lay natural gas pipelines also contributes to delays in setting up adequate pipeline infrastructure. Notably, micro units among MSME clusters in Delhi-NCR were found to be located in non-conforming areas and were especially not in favour of switching to alternative cleaner fuels as this would entail putting themselves under the ambit of regulatory compliances.
However, a switch to natural gas in MSMEs is not without precedent. The case of Uttar Pradesh’s Firozabad glass bangle industry is a prime example of how switching from coal and wood to natural gas, coupled with the adoption of energy-efficient technologies, can reduce energy consumption and GHG emissions. Similarly, the Morbi-Wankaner area in Gujarat witnessed immediate reduction in air pollution as a result of the local ceramics industry shifting from coal to natural gas in 2019, following an NGT order the same year. The area recorded a 75 per cent reduction in PM2.5 levels, 72 per cent reduction in PM10 levels and an 85 per cent reduction in sulphur dioxide (SO2).
Further, in case of a shift to natural gas at a metal casting unit in Faridabad, Haryana, the learnings have highlighted that along with fuel switching, there is also scope for further reduction in energy consumption if MSME units follow best operating practices to improve energy efficiency. This requires understanding of technological best practices and their assimilation and adaptation to meet the needs of individual MSME units.
The provisions for upgrading and introducing new clean technologies in MSME regulations can be capitalised in favour of natural gas augmentation in their energy mix. However, the diverse Government departments that have programmes and schemes related to enhancing clean energy measures in this sector are working in silos. It is important to achieve proper coordination among departments and link related programmes and schemes on clean energy, energy efficiency, technology upgradation, database generation, reporting and monitoring and capacity-building. This could ensure effective targetting and a confluence of actions at the intended delivery point.
There is an opportunity for natural gas penetration in the MSME sector provided the prices are rationalised, energy efficiency measures are put in place and proper regulations imposed to restrict consumption of polluting fuels. A policy directive from the Central Government to enforce the ban on usage of non-clean fuels like coal, wood and so on could be introduced in a phased manner. The city gas distribution companies could also be mandated by the Centre to completely erect the gas pipeline infrastructure in urban areas.
With the overall objective of increasing the adoption and usage of natural gas in the MSME sector, adopting a cluster-based approach would make natural gas penetration more effective. The Central and State Governments can play an important role in this area by facilitating the creation of necessary infrastructure and greener investments to ensure reliable and affordable supply of natural gas to MSMEs. Unabated consumption of one fossil fuel over another will, on its own, not offer a long-term solution to climate change, but employing less emission-intensive fuels such as natural gas can result in significant reduction in both CO2 emissions and air pollution.