Measurement Systems Sustainability Solutions

Carbon capture, transport, utilization, and storage (CCUS) process integration by high carbon emitting industries is seen as a major contributor to achieve low greenhouse gas emission targets as part of a reliable and sustainable global energy supply. 

Flow measurement and analytical systems are necessary for process control, allocation, to detect CO2 leaks for environmental purposes and for verification of the CO2 quantity accounted under any emissions scheme. The flow metering requirements depend upon the specified emissions uncertainty, the fluid phase, location of flowmeters in the CCUS system, the transportation method, and the regulatory requirements. 

Emerson’s engineered flow measurement system includes CO2 integrity stations with flowmeters, analytical systems, flow computers and corrosion erosion monitoring solutions that meet requirements both per equipment and per measurement system.  

Our sustainability experts offer flow metering design evaluation, measurement management, flow audit, uncertainty, mass balance, allocation, and equation of state calculations to reduce overall CCUS project expenditure and ensure reliable process control, pipeline integrity and leak detection. 

Drawing on our comprehensive range of solutions for gas and liquid hydrocarbon custody transfer and fiscal metering systems we can ensure optimal solutions within the sustainability space such as our CO2 integrity stations.  This system includes state-of-the-art flow meters, precision sampling systems, quantum cascade laser (QCL) analyzers, process gas analyzers (PGA) or Gas Chromatograph and advanced flow computers.  

Global regulators are tasked by governments to enforce tighter emissions standards for environmental protection. Emerson offers solutions for combustion efficiency control, flue gas process control, CEMS regulatory measurements and predictive emissions monitoring.   

Engineered CO, CO2 and O2 measurement systems integrated with gas analyzers, sampling systems and instrumentation regulate the combustion process and fuel consumption. Our Quantum Cascade Laser (QCL) Analyzer technology solutions increase the plant efficiency by optimizing the flue gas treatment (DeNOx) with the selective catalytic reduction and desulphurization processes. 

Quantum Cascade Laser (QCL) Analyzers and Process Gas Analyzers (PGA) can be utilized by industrial plants to meet their reporting requirements of stationary source emissions for environmental regulations and ensures accurate performance with its built-in analytics and automated validation capabilities.  

Emerson experts can provide predictive emissions monitoring support, evaluate combustion processes, classify the energy streams, calculate associate uncertainties, compile sampling data, review emissions monitoring plan, support with annual verification process and offer root cause analysis of pre-existing issues to reduce the impact of operations on the emissions.

These point items of equipment as solutions work together to enhance emission and product transportation operations and ensure efficiency.  Proper design and operation minimize the likelihood of non-compliance and ultimately reduce the overall cost of sustainability projects.