Litcius/Paper detail

Steam Turbine—Quo Vadis?

S. Can Gülen

2021Frontiers in Energy Research12 citationsDOIOpen Access PDF

Abstract

In this article, a close look is taken at the state-of-the-art in steam turbine and steam (Rankine) cycle technology within the framework of conventional steam and gas turbine combined cycle power plants, specifically, the bottoming steam (Rankine) cycle of the latter. Using the second law of thermodynamics and the concept of exergy as a guide, cycle and technology factors are calculated to provide a simple but precise (and unassailable) yardstick to assess where the technology was, where it is at present, and how much farther it can go. In addition, the study takes a critical look at an emerging technology, supercritical CO 2 cycle, that is being touted as a serious contender for steam turbine’s place in the fossil fuel-fired electric power generation portfolio—as a standalone system or as a waste heat recovery capacity (i.e., combined cycle).

Topics & Concepts

Rankine cycleCombined cycleSteam turbineExergyDegree RankineSupercritical fluidHeat recovery steam generatorProcess engineeringEngineeringTurbineSteam-electric power stationWaste managementEnvironmental scienceMechanical engineeringThermodynamicsPower (physics)PhysicsThermodynamic and Exergetic Analyses of Power and Cooling SystemsCombustion and flame dynamicsIntegrated Energy Systems Optimization