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gas infrastructure Applications

  • Trenchless solutions for the natural gas transmission areas

    As natural gas becomes a more significant option for future energy needs, TRIC Tools will help ensure sound infrastructure and increased capacity to handle projected conveyance volumes.

    By TRIC Tools Inc. based in Alameda, CALIFORNIA (USA).

  • Noise and vibration monitoring for oil and gas industry

    The oil and gas industry requires major infrastructure in terms of refineries and offshore extraction platforms which operate continuously. A large number of essential rotating machines, structures and piping networks are subjected to high levels of demand in a difficult environment, leading to the potential for breakage.

    By ACOEM based in Limonest, FRANCE.

  • Manufactured Gas Plant Site Remediation

    It is estimated that there are over 3,000 former Manufactured Gas Plant (MGP) sites across the United States. Another 4,000 dot the landscape of Canada, the UK, continental Europe and Japan. These sites were built long ago on rivers or harbors, often on the outskirts of towns and cities; locations that are now frequently in close proximity to infrastructure, buildings and residential areas. Many underlie or abut valuable commercial, residential, and municipal properties, posing environmental hazards to ground and surface waters. The urgency of remediation has increased due to a potent blend of community activism, regulatory pressure, high real estate values, and the need to reduce liability in light of the Sarbanes-Oxley Act and other measures.

    By TerraTherm, Inc. based in Gardner, MASSACHUSETTS (USA).

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    High quality gas sensor solutions for landfill

    State-of-the-art systems enabling easy monitoring of CO2 and CH4 gases. Capped Landfill Sites produce a range of gases, mostly methane and carbon dioxide. Legislation requires that these gases are safely removed from beneath the cap to avoid a physical explosion due to the build-up of pressure beneath the cap. Safe disposal usually entails burning such as flare stacks, internal combustion engines or by processing to produce Methane gas fuel. For large sites with access to power distribution infrastructure internal combustion engines are used to generate electricity which is fed into the local electricity grid. All of the above safe disposal process require the measurement of the Methane content (and in many cases the CO2 concentration). Edinburgh Sensors provide gas sensors for both Methane and CO2 that can be integrated into landfill gas processing systems enabling easy monitoring of these gases.

    By Edinburgh Instruments Ltd based in Livingston, UNITED KINGDOM.

  • Laser detection solutions for pipeline leak detection

    Unwanted liquid hydrocarbon releases from oil refineries and pipelines, as well as transportation facilities are critical infrastructure integrity/safety and environmental health concerns. Real-time sensing of these releases has to deal with complex natural and anthropogenic targets usually containing a multitude of substances producing overlapping signals. Using Laser Induced Fluorescence (LIF), LDI LiDARs are able to deal with these complex environmental factors and still detect and quantify unwanted releases remotely and in real-time mode.

    By Laser Diagnostic Instruments AS based in Tallinn, ESTONIA.

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    Solutions for the chemical industry

    Many organizations in the industrial sector are investigating possibilities to improve their (sustainable) energy profile. The renewable energy sector currently offers a broad scale of options with significant capacity for growth and new projects and expanding upon existing infrastructures. In the industrial sector, biogas can replace the current natural gas consumption. DMT has extensive experience within various industries and knows her way around. For more than 28 years we have been advising our customers on reducing CO₂ and SOx emissions, wastewater treatment and (bio)gas desulphurisation and upgrading.

    By DMT Environmental Technology BV based in Joure (NL), NETHERLANDS.

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    Corrosion-resistant materials for the power industry

    Sauereisen is the most widely known international company to supply corrosion-resistant coatings, mortars and gunitable refractory linings for flue gas applications in the power industry. For more than half a century, our cost-effective corrosion-resistant materials have provided solutions for power plants and their various components where the infrastructure would otherwise be threatened by corrosion. Our diverse product line includes potassium silicate, novolac epoxy, vinyl ester and urethane formulations engineered to meet the challenges of each operating environment.

    By Sauereisen Inc. based in Pittsburgh, PENNSYLVANIA (USA).

  • Sulfide Oxidation with Hydrogen Peroxide (H2O2)

    Sulfide Odor Control Sulfide is found throughout the environment as a result of both natural and industrial processes. Most sulfide found in nature was produced biologically (under anaerobic conditions) and occurs as free hydrogen sulfide (H2S) - characterized by its rotten egg odor. We are most likely to encounter biogenic H2S in sour groundwaters, swamps and marshes, natural gas deposits, and sewage collection/treatment systems. Manmade sources of H2S typically occur as a result of natural materials containing sulfur (e.g., coal, gas and oil) being refined into industrial products. For a variety of reasons - aesthetics (odor control), health (toxicity), ecological (oxygen depletion in receiving waters), and economic (corrosion of equipment and infrastructure) - sulfide laden wastewaters must be handled carefully and remediated before they can be released to the environment. Typical discharge limits for sulfide are < 1 mg/L. Sulfide Treatment Alternatives There are dozens of alternatives for treating sulfide laden waters, ranging from simple air stripping (for the low levels present in groundwaters) to elaborate sulfur recovery plants (used to treat several tons per day at refineries and coal burning power plants). There are processes based on biology (using compost filters, scrubbing media, or inhibition/disinfection), chemistry (oxidation, precipitation, absorption, and combination), and physics (adsorption, volatilization, and incineration). Each process occupies a niche which is often defined by the scale and continuity of treatment, whether the sulfide is in solution or is a gas, the concentration of sulfide involved, and the disposition of the sulfide containing medium. However, for reasons relating to convenience and flexibility, chemical oxidation (using hydrogen peroxide) continues to grow in its scope of application. Treatment with Hydrogen Peroxide While other peroxygens such as permonosulfuric (Caro’s) acid, peracetic acid, and persulfates will oxidize sulfide, their use for this application is overkill. Hydrogen peroxide (H2O2) is considerably simpler and more cost-effective. H2O2 may control sulfides in two ways, depending on the application: Prevention - by providing dissolved oxygen which inhibits the septic conditions which lead to biological sulfide formation; and Destruction - by oxidizing sulfide to elemental sulfur or sulfate ion.

    By USP Technologies based in Atlanta, GEORGIA (US) (USA).

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