1. Where In The World Is SOLVAir Solutions!

    We’re global, and local! We’ve expanded our global presence to Asia and Latin America, but our local teams are still in place to help your plant meet acid gas regulatory compliance.  Find out why we’re working for the tightest acid gas regulations in the coking industry in China…and more…in this issue of the SOLVAir Breeze!

  2. Treatment of Groundwater Contaminated With 1,4-Dioxane - Tucson, Arizona (Case Study)

    The TrojanUVPhox™ installation at Tucson's Advanced Oxidation Process Water Treatment Facility treats 1,4-dioxane and produces water that is blended and then treated at the neighboring Tucson Airport Remediation Project facility. This purified water is supplied to nearly 50,000 end users.

  3. 1,4-Dioxane - Emerging Contaminants (Fact Sheet)

    1,4-Dioxane is a semi-volatile, colorless liquid with a mild ethereal odor. It is also known as diethylene dioxide, dioxane, or p-dioxane.

  4. Multispectral Infrared Camera: MS-IR Family Datasheet

    Telops’ MS-IR family is composed of multispectral imaging cameras available in MW and VLW configurations. They have the ability to split a scene into eight separate spectral bands, and are particularly well suited for quartz mineral identification and methane detection and identification.

  5. High Performance Infrared Camera: HDR-IR Family Datasheet

    This high performance infrared camera family comes with InSb detectors and covers the 3µm to 5.5µm spectral range. Download the datasheet to learn more about its features and specifications.

  6. The Road Ahead In Meeting The Challenge Of Evolving Regulations

    In air pollution control, evolving regulations and plant operating conditions might lessen the efficiency of your plant’s existing acid gas control equipment…always a challenge! This issue of the SOLVAir Breeze focuses on these complicated concerns. 

  7. What DSI Can Do For You!

    When it’s time to invest in an acid gas treatment system such as DSI, cost and effectiveness are usually high priorities. But… there are other advantages to DSI. Check out this issue of the SOLVAir Breeze to find out, for example, how DSI can help to achieve SO2 and HCl removal rates up to 98-99%, depending on industry

  8. An Acid Gas Emissions Solution With No Resultant Water Treatment!

    The reasons for choosing Dry Sorbent Injection with trona or sodium bicarbonate to treat acid gas emissions are many, but “no water” to treat at the end of the process is compelling.  Find out why in this issue of the SOLVAir Breeze — as well as the many other benefits of a sodium sorbent DSI system.

  9. Sodium Bicarbonate Vs. Other Sorbents In Acid Gas Treatment

    When regulatory compliance demands a high SO2 removal rate, and the generated fly ash or waste residuals need to be minimized, sodium bicarbonate might be an excellent choice for your air pollution control system. In this issue of the SOLVAir Breeze, you’ll find out why, for plants facing very tight restrictions, sodium bicarbonate is the one!

  10. The Residue From A DSI System – It’s Not All Created Equal!

    An excellent way to understand how efficiently a Dry Sorbent Injection system is working is through analysis of the residue, otherwise known as fly ash, ashes, cement or glass kiln dust, or dust, depending on industry and application.  Optimize consumption, maximize the efficiency of the air pollution control process, and cut costs…all this and more in the SOLVAir Breeze.