This case study explores the air dispersion study modeling conducted for the new flare package to evaluate its environmental impact, specifically focusing on the ground-level concentrations (GLCs) of various pollutants. The CPF Upgrade Project - Phase II, is an initiative by a prominent Oil and Gas Company involved in upgrading the Central Processing Facility (CPF) to accommodate increased production capacities. A significant aspect of this upgrade was the installation of a new low-pressure flare system, designed to manage and mitigate emissions from the facility during operational activities, including emergency events.
The Air Dispersion Study for the LP Flare Package as part of the CPF Upgrade Project – Phase II was conducted to assess the environmental impact of emissions generated by the newly installed low-pressure flare system at the Central Processing Facility (CPF). This project was initiated to enhance production capabilities while ensuring compliance with Oman’s air quality regulations set forth by Ministerial Decision MD 41/2017.
The modeling process involved several key steps:
The modeling results indicated that the maximum predicted GLCs for all assessed pollutants from the LP flare remained within the limits prescribed by MD 41/2017.
The comprehensive air dispersion modeling demonstrated that emissions from the LP Flare Package will remain within regulatory limits, confirming the project's alignment with environmental standards. This successful assessment underscores the plant’s commitment to sustainable and responsible operation within the Oil and Gas sector.
Ultimately, the findings of this study provide valuable insights for ongoing environmental management practices and future upgrades within the facility, reinforcing the importance of predictive air quality assessments in preserving air standards and public health. As a result, the CPF Upgrade Project – Phase II stands as a model for integrating operational efficiency with environmental compliance in the region.