scholarly journals Forensic tracers of exposure to produced water in freshwater mussels: a preliminary assessment of Ba, Sr, and cyclic hydrocarbons

2020 ◽  
Vol 10 (1) ◽  
Author(s):  
Paulina K. Piotrowski ◽  
Travis L. Tasker ◽  
Thomas J. Geeza ◽  
Bonnie McDevitt ◽  
David P. Gillikin ◽  
...  
Keyword(s):  
Soft Tissue ◽  
Oil And Gas ◽  
Produced Water ◽  
Freshwater Mussels ◽  
Surface Water Quality ◽  
Freshwater Mussel ◽  
Aquatic Organisms ◽  
Fatty Tissue ◽  
Cyclic Hydrocarbons ◽  
Fractured Well

Abstract Hydraulic fracturing is often criticized due in part to the potential degradation of ground and surface water quality by high-salinity produced water generated during well stimulation and production. This preliminary study evaluated the response of the freshwater mussel, Elliptio complanata, after exposure to produced water. A limited number of adult mussels were grown over an 8-week period in tanks dosed with produced water collected from a hydraulically fractured well. The fatty tissue and carbonate shells were assessed for accumulation of both inorganic and organic pollutants. Ba, Sr, and cyclic hydrocarbons indicated the potential to accumulate in the soft tissue of freshwater mussels following exposure to diluted oil and gas produced water. Exposed mussels showed accumulation of Ba in the soft tissue several hundred times above background water concentrations and increased concentrations of Sr. Cyclic hydrocarbons were detected in dosed mussels and principle component analysis of gas chromatograph time-of-flight mass spectrometer results could be a novel tool to help identify areas where aquatic organisms are impacted by oil and gas produced water, but larger studies with greater replication are necessary to confirm these results.

Freshwater Mussel Soft Tissue Incorporates Strontium Isotopic Signatures of Oil and Gas Produced Water

2021 ◽  
Author(s):  
Bonnie McDevitt ◽  
Thomas J. Geeza ◽  
David P. Gillikin ◽  
Nathaniel R. Warner
Keyword(s):  
Soft Tissue ◽  
Oil And Gas ◽  
Produced Water ◽  
Freshwater Mussel ◽  
Isotopic Signatures

scholarly journals Oil and Gas Production Wastewater: Soil Contamination and Pollution Prevention

2016 ◽  
Vol 2016 ◽  
pp. 1-24 ◽  
Author(s):  
John Pichtel
Keyword(s):  
Land Surface ◽  
Oil And Gas ◽  
Produced Water ◽  
Pollution Prevention ◽  
Surface Water Quality ◽  
Biological Properties ◽  
Gas Production ◽  
Oil And Gas Development ◽  
Oil And Gas Production ◽  
Fundamental Information

During oil and natural gas production, so-called “produced water” comprises the largest byproduct stream. In addition, many oil and gas operations are augmented via injection of hydraulic fracturing (HF) fluids into the formation. Both produced water and HF fluids may contain hundreds of individual chemicals, some known to be detrimental to public health and the environment. Oil and gas production wastewater may serve a range of beneficial purposes, particularly in arid regions, if managed correctly. Numerous treatment technologies have been developed that allow for injection, discharge to the land surface, or beneficial reuse. Although many papers have addressed the effects of oil and gas production wastewater (OGPW) on groundwater and surface water quality, significantly less information is available on the effects of these fluids on the soil resource. This review paper compiles fundamental information on numerous chemicals used and produced during oil and gas development and their effects on the soil environment. Additionally, pollution prevention technologies relating to OGPW are presented. An understanding of the effects of OGPW on soil chemical, physical, and biological properties can provide a foundation for effective remediation of OGPW-affected soils; additionally, sustainable reuse of oil and gas water for irrigation and industrial purposes may be enhanced.

Potential of recovering elements from produced water at oil and gas fields, British Columbia, Canada

CIM Journal ◽  
2018 ◽  
Vol 9 (4) ◽  
pp. 195-214
Author(s):  
G. J. Simandl ◽  
C. Akam ◽  
M. Yakimoski ◽  
D. Richardson ◽  
A. Teucher ◽  
...  
Keyword(s):  
British Columbia ◽  
Oil And Gas ◽  
Produced Water ◽  
Oil And Gas Fields ◽  
Gas Fields

DETERMINING SOURCES OF BARIUM AND OTHER DISSOLVED SOLIDS IN OIL AND GAS PRODUCED WATER USING STABLE BARIUM ISOTOPES

2019 ◽  
Author(s):  
Brian W. Stewart ◽  
◽  
Zachary G. Tieman ◽  
Rosemary C. Capo ◽  
Rebecca M. Matecha ◽  
...  
Keyword(s):  
Oil And Gas ◽  
Produced Water ◽  
Dissolved Solids

scholarly journals Fate of radium on the discharge of oil and gas produced water to the marine environment

Chemosphere ◽  
2021 ◽  
pp. 129550
Author(s):  
Faraaz Ahmad ◽  
Katherine Morris ◽  
Gareth T.W. Law ◽  
Kevin Taylor ◽  
Samuel Shaw
Keyword(s):  
Marine Environment ◽  
Oil And Gas ◽  
Produced Water

A review of treatment technologies for produced water in offshore oil and gas fields

2021 ◽  
Vol 775 ◽  
pp. 145485
Author(s):  
Yiqian Liu ◽  
Hao Lu ◽  
Yudong Li ◽  
Hong Xu ◽  
Zhicheng Pan ◽  
...  
Keyword(s):  
Oil And Gas ◽  
Produced Water ◽  
Oil And Gas Fields ◽  
Treatment Technologies ◽  
Offshore Oil And Gas ◽  
Gas Fields ◽  
Offshore Oil

scholarly journals Evaluation of Galdieria sulphuraria and Chlorella vulgaris for the Bioremediation of Produced Water

Water ◽  
2021 ◽  
Vol 13 (9) ◽  
pp. 1183
Author(s):  
Ashiqur Rahman ◽  
Shanglei Pan ◽  
Cymone Houston ◽  
Thinesh Selvaratnam
Keyword(s):  
Chlorella Vulgaris ◽  
Oil And Gas ◽  
Produced Water ◽  
Algal Growth ◽  
Oil And Gas Industry ◽  
Galdieria Sulphuraria ◽  
Biomass Density ◽  
Traditional Treatment ◽  
Gas Industry ◽  
Chemical Contaminants

Produced water (PW) is the largest waste stream generated by the oil and gas industry. Traditional treatment of PW burdens the industry with significant expenses and environmental issues. Alternatively, microalgal-based bioremediation of PW is often viewed as an ecologically safe and sustainable platform for treating PW. Moreover, the nutrients in PW could support algal growth. However, significant dilution of PW is often required in algal-based systems due to the presence of complex chemical contaminants. In light of these facts, the current work has investigated the potential of cultivating Galdieria sulphuraria and Chlorella vulgaris in PW using multiple dilutions; 0% PW, 5% PW, 10% PW, 20% PW, 50% PW and 100% PW. While both algal strains can grow in PW, the current results indicated that G. sulphuraria has a higher potential of growth in up to 50% PW (total dissolved solids of up to 55 g L−1) with a growth rate of 0.72 ± 0.05 g L−1 d−1 and can achieve a final biomass density of 4.28 ± 0.16 g L−1 in seven days without the need for additional micronutrients. Additionally, the algae showed the potential of removing 99.6 ± 0.2% nitrogen and 74.2 ± 8.5% phosphorus from the PW.

scholarly journals A Literature Review of Hybrid System Dynamics and Agent-Based Modeling in a Produced Water Management Context

Modelling ◽  
2021 ◽  
Vol 2 (2) ◽  
pp. 224-239
Author(s):  
Saeed P. Langarudi ◽  
Robert P. Sabie ◽  
Babak Bahaddin ◽  
Alexander G. Fernald
Keyword(s):  
Water Management ◽  
New Mexico ◽  
Literature Review ◽  
System Dynamics ◽  
Oil And Gas ◽  
Produced Water ◽  
Hybrid Approach ◽  
Oil And Gas Industry ◽  
Hybrid Modeling ◽  
Agent Based

This paper explores the possibility and plausibility of developing a hybrid simulation method combining agent-based (AB) and system dynamics (SD) modeling to address the case study of produced water management (PWM). In southeastern New Mexico, the oil and gas industry generates large volumes of produced water, while at the same time, freshwater resources are scarce. Single-method models are unable to capture the dynamic impacts of PWM on the water budget at both the local and regional levels, hence the need for a more complex hybrid approach. We used the literature, information characterizing produced water in New Mexico, and our preliminary interviews with subject matter experts to develop this framework. We then conducted a systematic literature review to summarize state-of-the-art of hybrid modeling methodologies and techniques. Our research revealed that there is a small but growing volume of hybrid modeling research that could provide some foundational support for modelers interested in hybrid modeling approaches for complex natural resource management issues. We categorized these efforts into four classes based on their approaches to hybrid modeling. It appears that, among these classes, PWM requires the most sophisticated approach, indicating that PWM modelers will need to face serious challenges and break new ground in this realm.

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