Redirigiendo al acceso original de articulo en 24 segundos...
Inicio  /  Water  /  Vol: 15 Par: 23 (2023)  /  Artículo
ARTÍCULO
TITULO

A Bayesian Network Model for Risk Management during Hydraulic Fracturing Process

Mohammed Ali Badjadi    
Hanhua Zhu    
Cunquan Zhang and Muhammad Safdar    

Resumen

The escalating production of shale gas and oil, witnessed prominently in developed nations over the past decade, has sparked interest in prospective development, even in developing countries like Algeria. However, this growth is accompanied by significant opposition, particularly concerning the method of extraction: hydraulic fracturing, or ?fracking?. Concerns regarding its environmental impact, water contamination, greenhouse gas emissions, and potential health effects have sparked widespread debate. This study thoroughly examines these concerns, employing an innovative approach to assess the risks associated with hydraulic fracturing operations in shale gas reservoirs. Through the integration of diverse data sources, including quantitative and qualitative data, observational records, expert judgments, and global sensitivity analysis using the Sobol method, a comprehensive risk assessment model, was developed. This model carefully considered multiple condition indicators and extreme working conditions, such as pressures exceeding 110 MPa and temperatures surpassing 180° F. The integration of these varied data streams enabled the development of a robust Bayesian belief network. This network served as a powerful tool for the accurate identification of process vulnerabilities and the formulation of optimal development strategies. Remarkably, this study?s results showed that this approach led to a notable 12% reduction in operational costs, demonstrating its practical efficacy. Moreover, this study subjected its model to rigorous uncertainty and sensitivity analyses, pinpointing the most severe risks and outlining optimal measures for their reduction. By empowering decision-makers to make informed choices, this methodology not only enhances environmental sustainability and safety standards but also ensures prolonged well longevity while maximizing productivity in hydraulic fracturing operations.

 Artículos similares

       
 
Wendimu Fanta Gemechu, Wojciech Sitek and Gilmar Ferreira Batalha    
Revista: Applied Sciences

 
Hung Vuong Pham, Maria Katherina Dal Barco, Mohsen Pourmohammad Shahvar, Elisa Furlan, Andrea Critto and Silvia Torresan    
The coastal environment is vulnerable to natural hazards and human-induced stressors. The assessment and management of coastal risks have become a challenging task, due to many environmental and socio-economic risk factors together with the complex inter... ver más

 
Sofía Ramos-Pulido, Neil Hernández-Gress and Gabriela Torres-Delgado    
Current research on the career satisfaction of graduates limits educational institutions in devising methods to attain high career satisfaction. Thus, this study aims to use data science models to understand and predict career satisfaction based on infor... ver más
Revista: Informatics

 
Konstantinos Ntafloukas, Liliana Pasquale, Beatriz Martinez-Pastor and Daniel P. McCrum    
Transportation networks are fundamental to the efficient and safe functioning of modern societies. In the past, physical and cyber space were treated as isolated environments, resulting in transportation network being considered vulnerable only to threat... ver más
Revista: Future Internet

 
Huiwen Wang, Dandan Li, Taozhen Sheng, Jinbao Sheng, Peiran Jing and Dawei Zhang    
The results of the paper can help to conduct a more scientific dam risk analysis, identify human errors in dam collapse accidents, and improve risk management in a targeted manner.
Revista: Applied Sciences