Turbine & HRSG Chemical Cleaning

Interstate Carbonic and our partners have unparalleled experience, over 25 years, addressing the full range of HRSG chemical cleaning challenges facing fossil power plants. We provide comprehensive, customized cleaning solutions that maximize the efficiency and lifespan of critical components throughout the plant—from gas and steam turbines to Heat Recovery Steam Generators (HRSG), Selective Catalytic Reduction (SCR) and Turbine Cleaning for combined cycle cogeneration plants.

We specialize in a variety of surface cleaning services that optimize plant efficiency and increase generating capacity. Our technicians perform dry ice blasting for contamination in the Texas, Oklahoma, Arkansas, and Louisiana area.

Interstate Carbonic provides gas turbine, HRSG, and other fossil power plants with a comprehensive range of specialized cleaning services throughout the plant, to maximize efficiency and extend the lifespan of plant components, ensure end-product quality and protect worker health and safety.

Interstate Carbonic provides plant operators a range of dry ice cleaning services for HRSG chemical cleaning, boiler chemical cleaning, and more. Our specialized cleaning services include:

Scheduled Maintenance Services

Interstate Carbonic provides a comprehensive range of surface cleaning and de-fouling services to support planned outage maintenance operations. We employ a variety of advanced technologies to achieve optimum results, while minimizing waste. We have vast experience with the full range of fossil power plant components, including:

  • Air-cooled condensers
  • Electric motor and genset components
  • Gas turbines
  • Heat exchangers
  • HRSGs (Heat Recovery Steam Generators)
  • SCO and CO Catalyst Modules
  • SCR (Selective Catalytic Reduction) units
  • Steam turbines
  • Tanks

Emergency Call Out Services

We can respond quickly and effectively to address emergency HRSG chemical cleaning situations. Our self-contained Mobile Support Trailers (MSTs) enable us to help combined cycle plants rapidly recover from both scheduled and unscheduled events, minimizing costly plant downtime.

No matter what the challenge, Interstate Carbonic provides a complete, turnkey solution, including:

  • Call-Out Service
  • Cleaning using most appropriate technologies
  • Complete site preparation
  • Comprehensive cleaning plan development
  • Health and safety monitoring
  • Project review and assessment
  • Waste collection

Turnkey Solution

For each project, Interstate Carbonic creates a tailored cleaning plan, applying a range of techniques, tools and technologies, to reduce reliance on client resources and/or eliminate the need to hire multiple subcontractors, including:

  • Abrasive Media Blasting
  • Absorbent Impregnated Media Blasting
  • CO2 Fin Tube Cleaning
  • GT Compressor Chemical Cleaning
  • Hydrolasing (water blasting)
  • Scaffolding, scaffolding erection and sky climber installation
  • Sodium Bicarbonate Blasting
  • Vacuum Services

Emergency Call Out Services

Interstate Carbonic can respond quickly and effectively to address most emergency situations & remediation needs. Our self-contained Mobile Support Trailers (MST) enable us to help fossil power plants rapidly recover from unscheduled events, minimizing costly plant downtime.

No matter what the challenge, Interstate Carbonic provides a complete, turnkey solution.



Discover Interstate Carbonic Enterprise

Contact Interstate Carbonic Enterprise today to speak with an industry expert and choose the best cleaning solution for your HRSG chemical cleaning or boiler chemical cleaning application. Our team services the Texas, Oklahoma, Arkansas, and Louisiana area.

Call 214-491-0051 to learn more. 


  • What is dry ice blasting?

    Dry ice blasting is similar to sandblasting, bead blasting, or soda blasting where a media is accelerated in a pressurized air stream (or other inert gas) to impact and clean a surface.

  • How does the process work?

    Unlike other blast media, dry ice has a temperature of -109°F (-78.3°C). Because of the temperature difference between the dry ice particles and the surface being treated, thermal shock occurs during the process of dry ice blasting. This causes a breakdown of the bond between two dissimilar materials.

  • What happens to the contaminate?

    Contaminants can be dry, wet, hard or soft. Dry contaminates will break up into small chips and can be swept up or vacuumed. If the particles are large enough, they do not become airborne. If the contaminate is wet, such as grease or oils, the stream will move or push the liquid away much like a high pressure water stream would, except that the surface where the contaminate was will be dry and clean. To prevent redeposition, the operator should work in a methodical way, from the top down.