Handbook of Power Systems ISteffen Rebennack, Panos M. Pardalos, Mario V. F. Pereira, Niko A. Iliadis Energy is one of the world`s most challenging problems, and power systems are an important aspect of energy related issues. This handbook contains state-of-the-art contributions on power systems modeling and optimization. The book is separated into two volumes with six sections, which cover the most important areas of energy systems. The first volume covers the topics operations planning and expansion planning while the second volume focuses on transmission and distribution modeling, forecasting in energy, energy auctions and markets, as well as risk management. The contributions are authored by recognized specialists in their fields and consist in either state-of-the-art reviews or examinations of state-of-the-art developments. The articles are not purely theoretical, but instead also discuss specific applications in power systems. |
Other editions - View all
Handbook of Power Systems I Steffen Rebennack,Panos M. Pardalos,Mario V. F. Pereira,Niko A. Iliadis No preview available - 2012 |
Handbook of Power Systems II Steffen Rebennack,Panos M. Pardalos,Mario V. F. Pereira,Niko A. Iliadis No preview available - 2010 |
Handbook of Power Systems I Steffen Rebennack,Panos M. Pardalos,Mario V. F. Pereira,Niko A. Iliadis No preview available - 2010 |
Common terms and phrases
algorithm analysis applied approach approximation assumed balance calculated capacity computational considered constraints corresponding cost curve decision defined demand depends described determined distribution dual dynamic economic efficient electricity energy et al example expansion planning expected flow formulation fuel function future given hydro IEEE Trans Power impact important increase inflow initial integration interval investment limits linear load load shedding losses marginal maximum method natural gas node obtained operation optimization performance period planning plants possible power system presented problem production programming proposed reduce region represented reserve reservoir respectively scenario scheduling Sect selected simulation social solution solve stage steam step stochastic stochastic programming storage structure supply Table thermal tion transmission turbine uncertainties unit variables vector wind wind power