Natural gas fired industrial burners are capable of achieving NOx emissions at or near SCR levels. The most common NOx reduction technique utilized in the industry today is massive amounts of Flue Gas Recirculation (FGR). The use of such high quantities of FGR has deleterious effects on heat transfer efficiency, plant efficiency and, most important, flame stability. There is a great need to provide single digit NOx emissions for industrial steam generation without using such high quantities of FGR. This paper presents the work in progress for a Gas Research Institute funded program to develop a natural gas burner suitable for industrial steam generation capable of achieving 5 ppm NOx (corrected to 30/0 02, dry). The challenging low NOx en...
This report describes computational fluid dynamics (CFD) modeling and pilot-scale testing conducted ...
Paper from the AFRC 2014 conference titled Evaluating the NOx Performance of a Steam Generator for H...
This study focuses on the indirect co-firing CFD simulations of reductions in NOx emissions relative...
This paper describes development process of a new ultra low NOx burner for industrial steam generato...
A combustion concept to achieve ultralow emissions (NOx 2 ppm and CO 20 ppm) was tested on a 18 kW...
Paper from the AFRC 2016 conference titled Development of an Ultra-Low NOx Gaseous Fuel Burner for O...
Clean gas turbine combustion research has gained popularity in power generation and propulsion indus...
The market for direct-fired absorption chillers in the 100 to 1000 ton capacity range is projected t...
Increasingly tight environmental regulations for NOx emission from coal-, oil- and gas-fired utility...
This paper is concerned with the application of a rapidly developing combustion technology [1] that ...
Reexamining conventional gas burner design may lead to NOx compliance for less than $3/kW. Extensive...
The paper describes the development process of a new Coen low NOx high performance burners and the t...
There is an increasing demand for ultra-low NOx burners for all types of heating applications. Gas-f...
The Institute of Gas Technology (IGT) is developing a premixed cyclonic combustion approach for boil...
A commercially available computational fluid dynamics code was employed to evaluate the effects of N...
This report describes computational fluid dynamics (CFD) modeling and pilot-scale testing conducted ...
Paper from the AFRC 2014 conference titled Evaluating the NOx Performance of a Steam Generator for H...
This study focuses on the indirect co-firing CFD simulations of reductions in NOx emissions relative...
This paper describes development process of a new ultra low NOx burner for industrial steam generato...
A combustion concept to achieve ultralow emissions (NOx 2 ppm and CO 20 ppm) was tested on a 18 kW...
Paper from the AFRC 2016 conference titled Development of an Ultra-Low NOx Gaseous Fuel Burner for O...
Clean gas turbine combustion research has gained popularity in power generation and propulsion indus...
The market for direct-fired absorption chillers in the 100 to 1000 ton capacity range is projected t...
Increasingly tight environmental regulations for NOx emission from coal-, oil- and gas-fired utility...
This paper is concerned with the application of a rapidly developing combustion technology [1] that ...
Reexamining conventional gas burner design may lead to NOx compliance for less than $3/kW. Extensive...
The paper describes the development process of a new Coen low NOx high performance burners and the t...
There is an increasing demand for ultra-low NOx burners for all types of heating applications. Gas-f...
The Institute of Gas Technology (IGT) is developing a premixed cyclonic combustion approach for boil...
A commercially available computational fluid dynamics code was employed to evaluate the effects of N...
This report describes computational fluid dynamics (CFD) modeling and pilot-scale testing conducted ...
Paper from the AFRC 2014 conference titled Evaluating the NOx Performance of a Steam Generator for H...
This study focuses on the indirect co-firing CFD simulations of reductions in NOx emissions relative...