Abstract
Several studies have reported the importance of optimally operating the absorption column in a post-combustion CO2 capture (PCC) plant. It has been demonstrated in our previous work how economic model predictive control (EMPC) has a great potential to improve the operation of the PCC plant. However, the use of a general economic objective such as maximizing the absorption efficiency of the column can cause EMPC to drive the state of the system close to the constraints. This may lead to solvent overcirculation and flooding, which are undesirable. In this work, we present an EMPC with zone tracking algorithm as an effective means to address this problem. The proposed control algorithm incorporates a zone tracking objective and an economic objective to form a multi-objective optimal control problem. To ensure that the zone tracking objective is achieved in the presence of model uncertainties and time-varying flue gas flow rate, we propose a method to modify the original target zone with a control invariant set. The zone modification method combines both ellipsoidal control invariant set techniques and a back-off strategy. The use of ellipsoidal control invariant sets ensure that the method is applicable to large scale systems such as the absorption column. We present several simulation case studies that demonstrate the effectiveness and applicability of the proposed control algorithm to the absorption column in a post-combustion CO2 capture plant.
Highlights
Climate change is a pressing global issue that needs immediate attention
We present the results for the two control algorithms, namely economic model predictive control (EMPC) with target zone tracking (NZEMPC) and EMPC with modified zone tracking (RZEMPC)
A control problem that typically arises in the operation of the absorption unit in a post-combustion CO2 capture plant is addressed using an EMPC with zone tracking formulation
Summary
Climate change is a pressing global issue that needs immediate attention. A major contributing factor to climate change is the presence of large quantities of anthropogenic greenhouse gases, especially carbon dioxide (CO2), in the atmosphere. While EMPC is a promising control algorithm for the PCC process, the general economic objective such as maximizing the absorption efficiency of the absorption column may drive the system states to the constraints This may lead to column flooding and/or solvent overcirculation in the PCC plant. Column flooding can compromise the safety of both the absorption column and the personnel that manage it while solvent overcirculation may lead to high energy requirements for regeneration of the solvent in the desorption column In another direction, it is not well understood how the presence of uncertainties affect the economic performance of EMPC in general. We present an economic MPC with zone tracking algorithm for the control of the absorption column of the PCC process under additive state uncertainties and time-varying flue gas flow rate.
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