Article ID Journal Published Year Pages File Type
172703 Computers & Chemical Engineering 2012 11 Pages PDF
Abstract

Economic, energy, and sustainability metrics are key performance indicators for process operations. The relative importance of these metrics varies from plant to plant, and often some metrics are in conflict with each other (sustainability vs. profitability). In this paper we discuss the current plant environment and how various metrics can be aligned by focusing on energy efficiency. Power-steam systems are the major energy drivers for most plants, and we discuss possible operational changes that might improve energy efficiency, as well as the role of process control. Managing the interplay of real-time optimization and regulatory control is a challenge for the future, as well as interfacing with the implementation of smart power grids by the utility industry. Combined heat and power along with energy storage presents interesting control and optimization opportunities to maximize energy efficiency.

► Economic, energy, and sustainability metrics can be aligned with energy efficiency. ► Operational strategies to improve energy efficiency are identified. ► Combined heat and power along with energy storage can maximize energy efficiency. ► Carbon management regulation can be addressed by energy consumption minimization. ► Process sensors may generate additional control degrees of freedom for sustainability.

Related Topics
Physical Sciences and Engineering Chemical Engineering Chemical Engineering (General)
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