Regional and Total Site CO₂ Integration Considering Purification and Pressure Drop

Abstract

The application of Pinch Analysis (PA) targeting method has been recently explored to the design of CO₂ emission reduction in Total Site planning of CO₂ capture, utilisation and storage. The algebraic method based on Problem Table Algorithm (PTA) for Total Site CO₂ Integration (TSCI) provides the designer with integrated CO₂ capture, utilisation and storage (CCUS) for the optimal CO₂ emission reduction. In TSCI, CO₂ is captured with certain quality from various plants and supply into system header pipeline. The CO₂ header could satisfy various CO₂ demands for various industry located in the header, and only surplus CO₂ is to be sent to storage. The extended methodology with consideration of purification and pressure drop in TSCI planning is proposed. The CO₂ supply from the header could satisfy the purity demand through a process of purification. Purification is a process to upgrade the purity level have not been considered in the previously used in TSCI method. In addition, pressure drop during CO₂ transportation in the pipeline system has been included to identify the implication of pressure drop in TSCI design and has resulted about 29.01 MPa of the total pressure drop (?P_d). Therefore, 68.2 t/h of flow rate (F_T) of 81 % purity level header is supplied and purified to satisfy the 50 t/h of demand, at 99 % purity level. The improved methodology of TSCI network has been further developed and provides a more realistic scenario for CCUS implementation.