Litcius/Paper detail

Flexible and economical operation of chlor‐alkali process with subsequent polyvinyl chloride production

Mathias Hofmann, Robert U. Muller, Andreas Christidis, P. Fischer, Franziska Klaucke, Sebastian Vomberg, George Tsatsaronis

2021AIChE Journal25 citationsDOIOpen Access PDF

Abstract

Abstract Demand response (DR) can compensate for imbalances in variable renewable energy supplies. This possibility is particularly interesting for electrochemical processes, due to their high energy intensity. To determine the technical feasibility and economic viability of DR, we chose the chlor‐alkali process with subsequent polyvinyl chloride production, including intermediate storage for ethylene dichloride. We estimate the maximum possible cost savings of implementing load flexibility measures. A process model is set up to determine the system characteristic. Subsequent optimizations result in the facility's best possible dispatch depending on additional and minimum power load, storage volume, and cost of a load change. Real plant data are used to specify model parameters and validate the system characteristic and the plant dispatch. An economic evaluation reveals the economic advantages of efficiency and flexibility. The approach can be used to analyze the DR potential of other chlorine value chains or facilities with high electricity demand in general.

Topics & Concepts

Flexibility (engineering)Renewable energyProcess engineeringProduction (economics)Polyvinyl chlorideProcess (computing)ElectricityDemand responseEnergy storageComputer scienceEngineeringPower (physics)ChemistryEconomicsElectrical engineeringMacroeconomicsPhysicsManagementOperating systemOrganic chemistryQuantum mechanicsEnergy Efficiency and ManagementProcess Optimization and IntegrationSmart Grid Energy Management