Our Solutions
ETI Overcomes Biogas Fuel Challenges
Utilizing biogas as a fuel supply presents significant challenges due to its low-quality nature. Biogas requires specialized and expensive equipment for combustion, often making it an uneconomical option as a renewable fuel supply. Additionally, when biogas methane is purified into RNG, the separated CO2 by-product is typically thermally oxidized on site, resulting in wasted resources. However, ETI’s systems overcome these issues by providing simpler more economical approach that adds value by also offering the integration of CO2 beneficial uses to the end users operations – see more below.
NOTE: General illustration shown above. ETI’s unique patented features may vary from this illustration depending on the installation.
Biogas Purification – How does this process work?
The water wash biogas separation process is a well-established technology that has been the most common way to purify biogas into RNG worldwide.
This water wash – gas separation process operates on the principle that methane (CH4) has very low solubility in water, while CO2 is highly soluble. In this process, pressurized biogas and water mix in a vessel and the methane that is not soluble rises and exits the top. The CO2 is absorbed into the water and exits out the bottom of the vessel as supersaturated carbonated (CO2) water. ETI has taken this well-proven process and re-engineered it into our innovative patented biogas purification-CO2 process systems.
ETI’s Advantages
Carbon Capture and Turning Underutilized Biogas CO2 into Sustainable Solutions
Our unique patented process utilizes the separated biogas CO2 by-product, which is typically wasted. ETI’s CO2-pH control process can aid in multiple applications in wastewater treatment, potentially saving operations a five to six-figure annual dollar value while reducing carbon emissions, making their operations more resilient and sustainable.
ETI’s CO2 patented process offers several synergistic benefits:
Our Patented Systems
Water-Based Biogas Purification System:
ETI holds two U.S. patents that encompass our innovative biogas purification water wash systems, which include a CO2 removal polishing process. This system is designed to be:
Simple to Operate
Minimizes operational complexity for facility personnel.
Cost-Savings
Provides savings of 30% or more compared to other commercial systems.
Highly Effective
Removes impurities such as H2S, ammonia, VOCs, and siloxanes, achieving purified methane levels up to 99.7% with our patented add-on CO2 removal polishing process.
Environmentally Beneficial
Captures and utilizes the CO2 by-product for wastewater treatment, reducing carbon emissions and enhancing sustainability.
Biogas Purification CO2 Removal Polisher:
At ETI, our patented CO2 removal polisher is a low-cost add-on step for our innovative water-based biogas purification systems. Designed to remove some or all of the residual CO2 in the product gas to produce some of the highest levels of methane purity to ensure that a supply of high-quality RNG is achieved. Key Benefits of Our CO2 Removal Polisher:
Exceptional Methane Purity
The RNG can achieve methane purity levels up to 99.7%, making it suitable for a wide range of high-value applications.
Operational Simplicity
Engineered for ease of use, our CO2 removal polisher is simpler to operate and maintain, reducing the operational complexity for facility personnel.
Biogas CO2-pH Control Process :
ETI’s innovative patented biogas CO2-pH control process offers several benefits for wastewater treatment, such as:
- pH Adjustment: Adjust and manage pH levels in wastewater.
- Chlorine Disinfection: Enhance the effectiveness of chlorine disinfection processes.
- Dissolved Gas Flotation (DGF): lower costs of solids separation using CO2-DGF.
- Phosphorous Removal: Aid in the removal of phosphorous from wastewater.
- Struvite Deposits Prevention: pH adjustment can prevent struvite deposit formation.
- Increased Biogas Production: Boost biogas production through added carbon input.
- Additional Uses: other applications can improve wastewater effluent lowering costs.
Illustrating the power of ETI’s solutions
ETI’s CO2 beneficial use process is 1,000 times more efficient on a volumetric basis than typical carbon air capture systems. This efficiency is achieved because ETI captures a concentrated flow of CO2 directly from the biogas source, in contrast to the relatively dilute CO2 found in the atmosphere. As a result, ETI’s system is significantly more effective, offering a highly desirable approach not only for capturing CO2 but also for utilizing it in beneficial ways.
ETI Biogas CO2 Beneficial Uses
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