Title :
Designing a Sustainable and Distributed Generation System for Semiconductor Wafer Fabs
Author :
Villarreal, Saul ; Jimenez, Jesus A. ; Jin, Tongdan ; Cabrera-Ríos, Mauricio
Author_Institution :
Tindall Corp., San Antonio, TX, USA
Abstract :
Driven by wind and solar photovoltaics technology, the power industry is shifting towards a distributed generation (DG) paradigm. A key challenge in deploying a renewable DG system is the power volatility. This study proposes a visionary energy concept and further presents a mathematical model that could help the large industry consumers adopt this new energy technology. The study seeks to design a grid-connected DG system that is capable of providing the necessary electricity for wafer fabs. Simulation-based optimization algorithm was applied to determine the equipment type and capacity aiming to minimize the DG lifecycle cost. The proposed method was demonstrated on fab facilitates located in three different regions in the US.
Keywords :
design for environment; life cycle costing; photovoltaic power systems; power grids; semiconductor industry; semiconductor technology; sustainable development; wind power; DG lifecycle cost; US; United States; distributed generation paradigm; distributed generation system; energy technology; grid-connected DG system; power industry; power volatility; renewable DG system; semiconductor wafer fabrication; simulation-based optimization algorithm; solar photovoltaics technology; sustainable generation system; visionary energy concept; wind technology; Distributed power generation; Electricity; Load modeling; Planning; Random variables; Substations; Wind speed; Chance constraint; computer simulation and optimization; demand response; distributed generation; sustainable production systems; wafer fabrication;
Journal_Title :
Automation Science and Engineering, IEEE Transactions on
DOI :
10.1109/TASE.2012.2214438
