Session: 11-10-02 Sustainability and Green Transition in Petroleum Industry

Submission Number: 157812

Sustainable Management of Produced Water in Venezuela’s Major Hydrocarbon Basins (Eastern Venezuela and Maracaibo Basins): Exploring Opportunities for Hydrogen Generation, Geothermal Energy and Mineral Extraction 

Sustainable water management in hydrocarbon production poses a significant challenge for Venezuela's oil and gas industry, particularly in the Eastern Venezuela and Maracaibo basins. Traditionally, the water lifecycle in the hydrocarbon industry has focused on phase separation (e.g., hydrocarbons and solids), treatment (e.g., emulsions), transport, disposal, storage, and utilization. However, water valorization techniques for renewable energy production have yet to be fully explored. This article introduces a workflow for hydrogen production, geothermal energy generation, and valuable mineral extraction from produced water in Venezuela, aiming to enhance water resource utilization and diversify energy sources with a low environmental impact.

A comprehensive review is conducted on available information, including published technical reports and scientific publications, production profiles, and physicochemical water analyses. The conversion of existing wells in high-water zones and/or aquifers is emphasized, along with the techniques for hydrogen production through water electrolysis. The review also explores potential formations containing valuable metals and minerals, together with the techniques—both research-focused and industrial—used for the extraction and production of electrolytic hydrogen and minerals like lithium. Key factors influencing these processes are also identified.

The results of this study suggest that several potential scenarios for managing produced water in Venezuela include hydrogen production, the use of geothermal energy through existing wells (with possible reconditioning), mineral extraction from produced brines, the application of alternative enhanced/improved oil recovery (EOR/IOR) processes, water use for agricultural purposes, among others. Current findings highlight the importance of considering physicochemical and geochemical reactions—such as precipitation of solids, scaling, mineralization, acid gas generation, and corrosion—along with the selection of suitable materials, management and storage of acidic gases, electrolyzer efficiency, and an effective underground-surface heat transfer system. These factors are crucial as they directly affect the efficiency, safety, and cost-effectiveness of the processes.

This article presents different techniques for managing and valorizing produced water, enabling energy generation with minimal environmental impact, utilizing mineral resources, and the recycling of waste. The case study, set in Eastern Venezuela and the Maracaibo Basin, will serve as a reference for conducting technical and economic feasibility studies in these basins and other field applications.

Presenting Author: Ahmed Belhaj University of Calgary

Presenting Author Biography: Ahmed Belhaj is currently a Ph.D. student in the Department of Chemical and Petroleum Engineering, University of Calgary. He's currently working on the project 'Low-Salinity waterflood as an EOR process for a carbonate reservoir'.