Remon Anwar
Business Development Manager
Emerson
Remon Anwar is the Business Development Manager for Emerson Analytical and Flame & Gas Detection Solutions for Saudi Arabia & Bahrain.
Total 12 Years of experience in oil & gas industry including 9 years of experience with analyzers solutions for process safety & optimization with very strong process background
Participates in
TECHNICAL PROGRAMME | Energy Technologies
Research, Technology Start-ups and Funding
Forum 19 | Digital Poster Plaza 4
28
April
10:00
12:00
UTC+3
Energy saving and combustion optimization are crucial for several reasons:
Improved Efficiency: Optimizing combustion processes in chemical & petrochemical industries, such as reformers, furnaces and boilers, can enhance energy efficiency, reducing fuel consumption and operational costs.
Reduced Emissions: Better combustion control leads to lower emissions of pollutants like carbon monoxide, nitrogen oxides, and particulate matter, contributing to cleaner air and a healthier environment.
Enhanced Process Quality: Accurate and repeatable measurement of excess air ensures consistent combustion, improving the quality of the end product in manufacturing processes.
Safety: Proper combustion optimization reduces the risk of hazardous conditions, such as explosions or fires, by maintaining safe operating parameters.
Improving Combustion Efficiency is achieved by measuring the excess oxygen and combustibles by an oxygen analyzer. Measuring excess oxygen is essential for controlling Air/Fuel Ratio and to make sure that there is no excess fuel or excess air. Measuring combustibles is required to ensure efficient combustion with no left over non burned CO which is harmful for environment. Improving Burner Control is done by a gas chromatograph for measuring real time heating vale (BTU) for the fuel gas and measuring Wobbe Index for Burner Optimization, this is very essential for Calculating Air/Fuel Ratio to improve burner control, improve efficiency, and reduce emissions. By focusing on energy saving and combustion optimization, we can achieve a more sustainable, cost-effective, and safer future.
Improved Efficiency: Optimizing combustion processes in chemical & petrochemical industries, such as reformers, furnaces and boilers, can enhance energy efficiency, reducing fuel consumption and operational costs.
Reduced Emissions: Better combustion control leads to lower emissions of pollutants like carbon monoxide, nitrogen oxides, and particulate matter, contributing to cleaner air and a healthier environment.
Enhanced Process Quality: Accurate and repeatable measurement of excess air ensures consistent combustion, improving the quality of the end product in manufacturing processes.
Safety: Proper combustion optimization reduces the risk of hazardous conditions, such as explosions or fires, by maintaining safe operating parameters.
Improving Combustion Efficiency is achieved by measuring the excess oxygen and combustibles by an oxygen analyzer. Measuring excess oxygen is essential for controlling Air/Fuel Ratio and to make sure that there is no excess fuel or excess air. Measuring combustibles is required to ensure efficient combustion with no left over non burned CO which is harmful for environment. Improving Burner Control is done by a gas chromatograph for measuring real time heating vale (BTU) for the fuel gas and measuring Wobbe Index for Burner Optimization, this is very essential for Calculating Air/Fuel Ratio to improve burner control, improve efficiency, and reduce emissions. By focusing on energy saving and combustion optimization, we can achieve a more sustainable, cost-effective, and safer future.
