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The impact of emission monitoring in the hottest year on record

According to a recent analysis by Carbon Brief , 2024 is expected to surpass 2023 as the hottest year on record. The World Meteorological Organization (WMO) highlighted that global temperatures continue to rise, driven by significant El Niño events and record-high greenhouse gas levels. This emphasizes the urgent need for drastic reductions in emissions.

Sebastian Mernild, Denmark’s leading climate expert and a globally recognized lead author on the UN’s IPCC report, recently echoed these concerns. He stated, "As 2024 is set to become the hottest year on record, the urgency for sustainable practices in all industries, including maritime, has never been more critical."

Embracing innovation in maritime practices

As global temperatures soar, the maritime industry must navigate increasingly stringent international environmental regulations. One essential tool for this is Continuous Emission Monitoring Systems (CEMS). These systems provide real-time data on emissions, ensuring regulatory compliance and optimizing operational efficiency. By monitoring actual emissions, rather than relying on estimates, CEMS offer precise and accurate measurements, which are crucial for meeting stringent environmental regulations and improving operational practices.

To understand the importance of CEMS in the maritime industry, it is helpful to look at how these systems assist in complying with specific international regulations:

Navigating international environmental regulations

The maritime industry operates under stringent international regulations aimed at reducing its environmental footprint. With stricter legislation being introduced, the role of emission monitoring systems has become more vital than ever. Here are a couple of examples on how CEMS can assist in complying with these regulations:

Tackling sulfur oxide emissions

IMO 2020 Sulfur Cap: The International Maritime Organization (IMO) introduced the IMO 2020 regulation, limiting sulfur content in marine fuel to 0.5%, down from the previous 3.5%. This aims to reduce sulfur oxide emissions, which cause respiratory diseases and acid rain.

CEMS Role: Continuous monitoring ensures compliance with the sulfur cap by providing real-time data on sulfur oxide emissions, helping make immediate adjustments to fuel usage and operational parameters.

Broadening the scope to include multiple greenhouse gasses

EU MRV Regulation: Initially focused on CO2 emissions from large ships, this regulation expanded on January 1, 2024, to include methane (CH4) and nitrous oxide (N2O) emissions, addressing a wider spectrum of greenhouse gases.

CEMS Role: CEMS facilitate accurate and automated data collection on CO2, methane, and nitrous oxide emissions, simplifying reporting processes and ensuring compliance with the expanded regulation.

Conclusion

Continuous Emission Monitoring Systems (CEMS) are not just tools for tracking emissions; they are essential for ensuring compliance with an increasingly complex web of international environmental regulations. By providing real-time data and detailed reports, CEMS help the maritime industry navigate these regulatory challenges effectively.

In the face of record-breaking global temperatures, as highlighted by experts like Sebastian Mernild, adopting these innovative solutions has never been more critical. Embracing CEMS technology enables the maritime industry to reduce its environmental impact, avoid penalties, and contribute to global efforts to combat climate change.

 

"As 2024 is set to become the hottest year on record, the urgency for sustainable practices in all industries, including maritime, has never been more critical"

Sebastian Mernild
Denmark’s leading climate expert and a globally recognized lead author on the UN’s IPCC report