Finally a dual function NOx/CO catalyst for gas turbine applications
Are your operations feeling the double pinch of ever-tighter emission limits and management’s demand for higher profits? If so – and no matter whether you’re a gas turbine plant operator who needs to boost output or an OEM needing to keep unit costs down – you’ll find answers in this high-impact webinar.
Hosted by Topsoe Power Generation sales manager Wayne Jones, this webinar will explain:
- The basics of using a DeNOx catalyst and reagent to remove NOx and oxidate CO and VOC
- How traditional SCR and CO catalyst systems impact unit performance, efficiency, maintenance and other factors
- Effective measurement and management of the impact of emission systems
- The advantages of Topsoe’s groundbreaking dual-function SCR/CO catalyst
- How this dual-function SCR/CO catalyst will affect the design and layout of future gas turbine emission systems
- How the new catalyst and emission control system can be used on new and existing installations alike
- Real-world examples of unit output and efficiency improvements
Join this webinar today to learn how to mitigate existing and new demands in an optimal and cost efficient way.
Presented by
Wayne Jones,
Sales Manager, Power Generation
Wayne Jones has 20 years of experience with a large US-based power generating company with responsibility progressing from plant engineer and special projects manager to plant manager. He also has 7 years of experience as a senior project manager for a large US electric utility and one of the largest engineering firms in the US. He was responsible for managing SCR projects on both new units and retrofits, working with coal, gas and biomass boilers as well as simple-cycle and combined-cycle gas turbines. The last 8 years, Wayne has been with Haldor Topsoe, as sales manager of the Power Generation department, focusing on SCR system design for all types of power applications with some emphasis on chemical and refinery process applications. Wayne has a BS in Mechanical Engineering from Texas A&M University.