CCUPAR: OPTIMUM DESIGN OF CO2 CAPTURE AND UTILIZATION PROCESSES IN PARALLEL INFRASTRUCTURES
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CCUPAR proposes the use of a parallel algorithm for integrated process design and controllability assessment of advanced CCU systems. The algorithm will be implemented in the design of CCU solutions for the cement and quicklime industries.
Start date: 01/06/2021
Duration in months: 18
Problem Description
Y Squared offers consultation services for mitigating greenhouse gas emissions through tailored algorithms and computational procedures. However, larger design spaces require significant time to ensure robustness and cost-effectiveness before delivery to customers.
Goals
New services
Challenges
The design of CO2 capture and utilization (CCU) processes for industries like quicklime and cement is computationally challenging and requires substantial investment. Conventional tools have limitations and are costly, hindering industrial adoption of CCU for environmental footprint reduction.
Innovation results
Y Squared has developed tools that combine chemical process design and control algorithms with parallelization techniques, increasing the value and potential of their existing tools. These developments increase the combination parameter space and reduce computational time by a factor of 50.
Business impact
HPC-aided CCU design achieves 6.5% cost reduction of calcium carbonate nanoparticles, making CCU more profitable, 1000x larger design spaces and 50x faster computing result in better designs give Y Squared a competitive edge, 30% increase in revenue from design studies is expected over the next 3 years.