Community Health Impacts From Natural Gas Pipeline Compressor Stations

Davis, Curtis D.; Frazier, Clara; Guennouni, Nihal; King, Rachael; Mast, Hannah; Plunkett, Emily M.; Quirk, Zack J.

doi:10.1029/2023gh000874

GeoHealth

2023

DOI: 10.1029/2023gh000874

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Community Health Impacts From Natural Gas Pipeline Compressor Stations

Curtis D. Davis,

Clara Frazier,

Nihal Guennouni

et al.

Abstract: Compressor stations maintain pressure along natural gas pipelines to sustain gas flow. Unfortunately, they present human health concerns as they release chemical pollutants into the air, sometimes at levels higher than national air quality standards. Further, compressor stations are often placed in rural areas with higher levels of poverty and/or minority populations, contributing to environmental justice concerns. In this paper we investigate what chemical pollutants are emitted by compressor stations, the im… Show more

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2024

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Environmental Aspects of Designing Turbocompressor Units of Compressor Stations of Main Gas Pipelines

Shcherbakov,

Plyatsuk,

Parafiynyk

2024

Technogenic and Ecological Safety

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The article examines the environmental aspects of creating turbo-compressor units for compressor stations of main gas pipelines. The aim of the study is to identify and analyze the main sources of environmental pollution arising from the operation of turbo-compressor units, as well as to analyze modern technical solutions aimed at reducing their negative impact on the environment. This goal is achieved through an analysis of the operational processes of turbo-compressor units, a review of literature sources and applicable regulations, as well as the systematization of many years of experience gained at JSC “SMNPO-Engineering” (Sumy, Ukraine) in the design and testing of similar equipment. The most important results of the work are as follows: sources of chemical, acoustic, and thermal pollution generated during the operation of turbo-compressor units with gas turbine drives and centrifugal compressors have been identified; a conclusion has been drawn about the priority of developing dry fuel combustion methods to reduce emissions of pollutants. It is noted that the application of catalytic exhaust gas purification systems is advisable for modernizing existing compressor stations to ensure compliance with environmental requirements without replacing or significantly reworking engine designs. Using a 16 MW gas turbine compressor unit as an example, an assessment of thermal pollution in the environment has been carried out. It has been concluded that reducing thermal pollution can be achieved by increasing the energy efficiency of turbo-compressor units, particularly through the application of complex working cycles of the drive, utilizing waste heat from exhaust gases, and creating energy technology complexes based on compressor stations of main gas pipelines for the production of electricity, heat, and cooling. The results of this work can be used in the development of environmentally more efficient turbo-compressor units, which is especially relevant in the context of global climate change and increasing requirements of international environmental regulations. Moreover, increasing the energy efficiency of turbo-compressor units will not only reduce environmental pollution but also lower energy consumption and improve the cost-effectiveness of gas transportation.

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Environmental Aspects of Designing Turbocompressor Units of Compressor Stations of Main Gas Pipelines

Shcherbakov,

Plyatsuk,

Parafiynyk

2024

Technogenic and Ecological Safety

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Community Health Impacts From Natural Gas Pipeline Compressor Stations

Cited by 1 publication

References 68 publications

Environmental Aspects of Designing Turbocompressor Units of Compressor Stations of Main Gas Pipelines

Environmental Aspects of Designing Turbocompressor Units of Compressor Stations of Main Gas Pipelines

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