There are many tools available commercially that facilitate green engineering. Simulation software for example, gives engineers the ability to work with a process in the virtual world without expense and time delays of testing a process in the real world. Steady-state simulation software, for instance, allows an engineer to evaluate different process configurations and rate existing systems to pinpoint optimal designs that reduce waste. A steady state simulation can be used to model the preheat train to a crude distillation column to determine the exchanger configuration that would optimize the heat recovery and minimize the utility costs. This reduces the utility usage and increases profitability while also benefiting the environment. Dynamic simulation software is another tool that facilitates green engineering. Dynamic simulation software allows a process’ control scheme to be evaluated under a variety of operating conditions including: start-up, shut-down, and virtually every operating variation in between. A dynamic simulation can be used to optimize a start-up sequence that minimizes waste by starting the process up as quickly and as safely as possible.

Simulation software can also apply green engineering to processes that are currently operational. Online optimization software and advanced process control can optimize a process and control it in a stable manner continuously. The goal is to keep the plant as stable as possible since stability aids in the minimization of energy consumption and maximization of throughput. Using online optimization software will allow a process to be run at an optimal level 24 hours a day, everyday, while accounting for changes in the market related to raw material, process utilities, and product prices. Advanced process control software yields tighter, more accurate control of the process that reduces waste, energy usage, and increases product quality. Coupling the online optimization software with advanced process control allows the plant to be operated with stability at optimal levels, resulting in increased profit, and increased environmental friendliness.

The world’s growing population is going to continue to demand more from our hydrocarbon processing, chemical, pharmaceutical, and petrochemical industries. It is up to the engineers of today to secure a greener tomorrow by implementing the green engineering techniques and tools available. The emerging markets of heavy oils and biofuels need engineers to take a lead role in developing efficient, environmentally friendly processes to harness the most for these fuel supplies.

Invensys Process Systems provides a wide array of solutions that can aid in implementing green engineering designs including safety shut-down systems, control systems, measurement devices, and operator training systems. For more information on Invensys Process Systems, or any of their offerings including: steady-state simulation (PRO/II, HEXTRAN, VISUAL FLOW, INPLANT), dynamic simulation (DYNSIM), online optimization (ROMeo), or advanced process control (CONNOISSEUR), go to www.ips.invensys.com.

Author Bio:
Joseph McMullen
Product Manager, Invensys Process Systems
Joseph.McMullen@ips.invensys.com
Office: 484-840-9450

Joseph McMullen is a Product Manager for Invensys Process Systems. Joseph joined SimSci-Esscor in April 2001 as a Senior Technical Support Engineer and Account Manager. Since 2006, he has been a Product Manager within the SimSci-Esscor Business Line Management group working with the Process Engineering Suite and the Online Performance Suite of products. He is currently the PES/Portal Product manager Responsible for development, positioning, and global marketing of SimSci-Esscor's Process Engineering Suite (PES) and the SIM4ME Portal. Joseph received his Bachelor of Science in Chemical Engineering and Masters of Business Administration from Villanova University in 2000 & 2004 respectively.