Just about a week ago, the city Delhi was engulfed in thick black smoke. The origins of the smoke can be traced back to the Ghazipur landfill, standing at a massive 65 metres tall and spanning across 70 acres wide (The Print, 2020). The landfill is one of the main dumping ground for the populous capital of India, receiving 2,000 tonnes of garbage dumped into it each day.

Landfill fires are not an uncommon sight in Delhi, where landfills are often haphazardly maintained. In fact, Delhi saw a total of 16 landfill fire in the year of 2021 – more than one per month (Outlook, 2022). Landfill fires worsen the already abysmal health and environmental impacts landfills have on its surroundings. The fires produce acrid smoke that cause initial implications such as coughing and eye irritation, and with prolonged exposure, increase the likelihood of respiratory related illnesses (Swati et al., 2017). The fires also release large volume of methane and carbon dioxide, previously trapped under layers of rubbish. Both are greenhouse gases, with methane being especially potent, having 20 times the greenhouse effect than carbon dioxide (Mohajan, 2012). Fires can also potentially destroy the linings of landfills, causing toxic leachate to leak into the soil and pollute groundwater aquifers, many of which are the main source of water for the residents of Delhi.

So what was the cause of Ghazipur’s landfill fire? For now, the Indian fire department has yet to pinpoint the specific reason, but the fires are most likely triggered by either arson or the immense heat from decomposition of the rubbish. Typical Indian municipal waste contains around 50% bio-degradable organic compounds such as excretion and food waste. When buried under many layers of trash, these organic compounds are left in oxygen deprived anaerobic conditions, perfect for decomposition and generation of landfill gases. Landfill gases contain around 40% of methane and 60% of carbon dioxide. Both gases are extremely flammable, and are responsible for fuelling the perpetual landfill fires (Kashyap et al., 2016).

Moving forward, the Indian government made promises to reduce the height of the le landfill to cut down on the health and environmental issues caused. On another hand, in the recent capitalistic times where even environmental hazards can be transformed into useful resources, researchers have plans on turning the smoking landfill into a natural gas capturing site (Kashyap et al., 2016).

References:

Kashyap, R. K., Chugh, P., & Nandakumar, T. (2016). Opportunities & challenges in capturing landfill gas from an active and un-scientifically managed land fill site – a case study. Procedia Environmental Sciences, 35, 348–367. https://doi.org/10.1016/j.proenv.2016.07.015

Mohajan, H.K. (2012), Dangerous Effects of Methane Gas in Atmosphere, International Journal of Economic and Political Integration, 2(1): 3–10.

Outlook. (2022, March 29). Ghazipur fire blazing on for over 19 hours but landfill fires not new in delhi. Https://Www.Outlookindia.Com/. https://www.outlookindia.com/national/ghazipur-fire-blazing-on-for-over-19-hours-but-landfill-fires-not-new-in-delhi-news-189002

Swati, Ghosh, P., & Thakur, I. S. (2017). An integrated approach to study the risk from landfill soil of Delhi: Chemical analyses, in vitro assays and human risk assessment. Ecotoxicology and Environmental Safety, 143, 120–128. https://doi.org/10.1016/j.ecoenv.2017.05.019

The Print. (2020, December 13). Entire garbage at Ghazipur landfill site will be processed by December 2024, claims Gambhir. ThePrint. https://theprint.in/india/governance/entire-garbage-at-ghazipur-landfill-site-will-be-processed-by-december-2024-claims-gambhir/565985/