As oil and gas wells age, natural reservoir pressure diminishes resulting in a natural decline in production rates. Eventually, the well reaches its economic limit when lower production and net revenue no longer cover ongoing operating expenses. It is literally a race against time. Artificial lift methods, however, can extend the life of the well by boosting production and one of the most effective artificial lift techniques is gas lift.  

Gas lift systems inject natural gas into the well casing to assist in lifting liquids to the surface through the production tubing. Operators use gas lift when reservoir pressure declines, water cuts increase and gas-to-oil ratios (GORs) change over time.  

The primary barriers to using gas lift, however, include the availability of natural gas produced at the well site and/or if the produced gas is “sour” and contains high levels of hydrogen sulfide (H₂S). Sour gas presents serious threats to both human health and infrastructure, rendering it unsuitable for gas lift operations. 

Fuel Gas Conditioning – Eliminating H2S and Reducing Emissions  

In situations where sufficient gas is produced at the well site for gas lift, but it is sour gas, operators typically have resorted to purchasing sweet gas (not containing H₂S) from their midstream partner in a practice known as sweet gas buyback. The downside to this approach is that it tends to be expensive.  

Operators with sour gas operations can avoid the expense of buying back sweet gas by treating H₂S on-site. This approach not only ensures a reliable source of gas for gas lift operations but can also lead to cost savings and environmental benefits. 

In areas with sour takeaway constraints, on site field gas conditioning can also significantly mitigate or eliminate the flaring by sweetening sour gas and using it for gas lift and/or selling it to the pipeline. Avoiding the flaring of sour gas also reduces potentially harmful emissions, like sulfur dioxide (SO₂).  

In fact, leading operators including Taprock Resources and Franklin Mountain Energy are using VALKYRIE technology to reduce emissions by sweetening sour gas on site and using it for gas lift operations.  

READ MORE: Taprock Resources Leveraging VALKYRIE® H₂S Treating Technology to Enhance Gas Lift Operations 

READ MORE: Field-Wide Deployment of VALKYRIE® H₂S Treatment Solution Continues in Permian Basin for Franklin Mountain Energy 

VALKYRIE Next Generation Liquid Redox for Emissions Reduction 

The Liquid Redox (Reduction-Oxidation) process converts H₂S into elemental sulfur and water vapor byproducts using chemistry (Reduction) that can be regenerated and used again with exposure to air (Oxidation). 

Using a Next Generation Liquid Redox process, sour gas is directed into a treating vessel containing specialized chemistry and then exits the system sweet (without H₂S) into a gas sales line. The elemental sulfur byproduct is filtered out of the liquid, and the chemistry is then regenerated with exposure to oxygen. The regenerated chemistry is then recirculated back into the treating vessel to perform the reaction again. The regenerative nature of the chemistry reduces media changes, disposal costs and reduces chemical handling requirements on the well site. 

The VALKYRIE® H₂S treating solution from Streamline Innovations utilizes relatively recent technological advances in automation control to create the “Next Generation Redox” system. The VALKYRIE system utilizes TALON® chemistry, our non-toxic, biodegradable Redox chemistry. 

VALKYRIE technology is a true green solution, by reducing the flaring of sour gas and related emissions at oil and gas production sites by converting H₂S into harmless byproducts, including elemental sulfur certified for use in food production.  

The Streamline VALKYRIE H₂S removal system is the next generation of Liquid Redox (Reduction-Oxidation) to cost-efficiently help oil and gas operators unlock the value of sour gas resources and reduce emissions from oil and gas operations. 

VALKYRIE Technology Applications 

In addition to fuel gas conditioning for Gas Lift applications, VALKYRIE H₂S treating units for sour gas sweetening and reducing emissions from oil and gas operations are suitable for a variety of oil and gas applications, including:  

• De-bottlenecking sour gas takeaway constraints with onsite H₂S treating. 

• Tail Gas treating. 

Benefits of the VALKRYIE gas treating system: 

• A green solution that converts H₂S into benign substances including water and elemental sulfur.  

• Universal application for biogas, landfill gas and oil and gas production.  

• Widest operating envelope of any H₂S gas treating method extending across the full spectrum of pressures, flow rates and H₂S concentrations.  

• Treating to established specifications for sales pipelines, gas lift and fuel gas.  

• Flexibility of placement along the production stream whether at the anaerobic digester, at a landfill, wellhead, refinery, in a direct or tail gas treating configuration.  

• Meets the most stringent outlet specifications.  

In our 2023 Sustainability Scorecard, the VALKYRIE fleet helped operators avoid 39.7 million pounds of SO₂ emissions by eliminating flaring of sour gas, among other benefits.  

READ MORE: Streamline Innovations 2023 Sustainability Scorecard 

Contact us today to learn how VALKYRIE H₂S treating technology can help you reduce emissions from your oil and gas production operations.  

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About Streamline Innovations 

Streamline Innovation’s vision is Reducing Emissions Through Technology.  We help heavy industry around the world achieve environmental performance objectives, improve sustainability, and transition to a sustainable, low-carbon economy. Streamline Innovations Leads TIME’s List of America’s Top GreenTech Companies of 2024. 

H₂S is present in almost every industrial process in the world.  Our technology can be applied across industries, delivering a sustainable solution that eliminates H₂S, the leading cause of acid rain, a deadly greenhouse gas dangerous for work and living environments. 

Streamline believes that achieving the E (“Environmental”) in ESG requires data. Creating intelligent systems that operate effectively and efficiently without human intervention is critical to reducing emissions that harm the environment.   We integrate advanced data collection, process control, and analytics in our technologies to provide a total solution for customers. 

We serve organizations in multiple sectors, including Energy/Oil & Gas, Biogas, Landfill Gas & Renewable Fuels, Municipal Wastewater and Industrial Air & Water.