Analysis of Environmental Sustainability through a Weighting Matrix in the Oil and Gas Industry
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Published:2023-06-03
Issue:11
Volume:15
Page:9063
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ISSN:2071-1050
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Container-title:Sustainability
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language:en
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Short-container-title:Sustainability
Author:
Guerrero-Martin Camilo Andrés123ORCID, Ortega-Ramírez Angie Tatiana4ORCID, Rodríguez Paula Alejandra Perilla4, López Shalom Jireth Reyes4, Guerrero-Martin Laura Estefanía5, Salinas-Silva Raúl5, Camacho-Galindo Stefanny5
Affiliation:
1. LOTEP—Laboratório de Operações e Tecnologias Energéticas Aplicadas na Indústria do Petróleo, Faculty of Petroleum Engineering, Federal University of Pará, Salinópolis 66075-110, Brazil 2. LEEPER—Laboratório de Ensino de Engenharia de Poço e Reservatórios, Faculty of Petroleum Engineering, Federal University of Pará, Salinópolis 66075-110, Brazil 3. Department of Engineering, Federal University of Pará—Campus Salinópolis, Rua Raimundo Santana Cruz, S/N, Bairro São Tomé, Salinópolis 68721-000, Brazil 4. Fundación Universidad de América, Management, Environment and Sustainability Research Group (GIGAS), Chemistry and Environmental Engineering Faculty, Eco Campus de los Cerros, Bogotá 111221, Colombia 5. Fundación de Educación Superior San José—Usanjose, Bogotá 110311, Colombia
Abstract
In the oil sector, various strategies are applied to mitigate harmful effects on the environment. These strategies include, among others, compensation plans, the measurement and control of the carbon footprint and/or water footprint, the recovery of waste from activities and processes, and Environmental Management Systems (EMS). An EMS provides a formal framework that enables more efficient work on environmental issues, thereby improving performance. It aims to raise awareness of the environmental impacts associated with the oil industry in different areas through the use of weighting matrices. Additionally, it seeks to conduct sustainable studies and optimize the direct activities involved in the exploitation of hydrocarbons as a natural resource. Factors considered in decision making include ensuring that the strategy does not compromise the well-being of future generations, has economic viability, and does not hinder any oil sector activities such as exploration, drilling, production, or processing of derivatives. The purpose of this is that it allows for the creation of decision matrices based on weighting methodologies that outline possible correlations between specific activities of the oil sector such as water use, effects on soils and landscapes, greenhouse gas emissions, solid waste, liquid effluents, hazardous waste, and toxic waste, among others. The decision matrices can also help elucidate the relationship of these activities with mitigation strategies to provide a decision-making tool for environmental management plans so that activities are implemented in a way that can mitigate impacts on water, soil, and air resources. The results of this study were classified using a traffic light matrix, based on the level of technical congruence, using an optimal (green), regular (yellow), medium (orange), and at-risk (red) scale. The environmental impact of “alteration of the geoform of the land” was positioned in the at-risk category due to its assessment by experts in relation to the activity of “land adaptation”. In the medium category, a total of 23 impacts were identified, while 10 impacts fell into the regular category. These results were evaluated in the context of the environmental, social, and economic sustainability of the oil industry.
Subject
Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction
Reference36 articles.
1. Monroy, C.J., Pena, L.V.D.L., and Salgado, J. (2022, January 5–7). A methodological route for the prevention and mitigation of socio-environmental conflicts in Colombia. Proceedings of the 2022 Congreso Internacional de Innovación y Tendencias en Ingeniería (CONIITI), Bogota, Colombia. 2. Pérez Ladino, S.L. (2023, January 06). Conflicto Socio-Ambiental por el Agua Causado por la Industria Petrolera en el Marco de los Objetivos de Desarrollo Sostenible, ODS, Caso Vereda La Esmerada, Acacías, Meta. Available online: https://repository.javeriana.edu.co/handle/10554/57445. 3. Guamán Lazo, L.Á. (2020). Desarrollo Económico Sostenible vs. Crecimiento Económico Miope de la Economía del Ecuador: Un Análisis de sus tres Principales Sectores Primarios: Petróleo; Banano, Café y Cacao; y, Acuicultura (Camarón). 4. Well log-aided source rock potential, basin modeling, and seismic attributes: Petroleum geology case study of Pliocene discovery at South Mansoura Area (Nile Delta);Elatrash;Arab. J. Geosci.,2021 5. Box–Jenkins Methodology Application to Improve Crude Oil Production Forecasting: Case Study in a Colombian Field;Arab. J. Sci. Eng.,2021
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