Discussion on Modification of Intermediate Pressure Rotor of ABB 600MW Steam Turbine in a Power Plant

The most popular method of controlling sulfur dioxide (SO2) emissions in a steam turbine power plant is a flue gas desulfurization (FGD) process that uses lime/limestone scrubbing. Another relatively newer FGD technology is to use seawater as a scrubbing medium to absorb SO2 by utilizing the alkalinity present in seawater. This seawater scrubbing FGD process is viable and attractive when a sufficient quantity of seawater is available as a spent cooling water within reasonable proximity to the FGD scrubber. In this process the SO2 gas in the flue gas is absorbed by seawater in an absorber and subsequently oxidized to sulfate by additional seawater. The benefits of the seawater FGD process over the lime/limestone process and other processes are; 1) The process does not require reagents for scrubbing as only seawater and air are needed, thereby reducing the plant operating cost significantly, and 2) No solid waste and sludge are generated, eliminating waste disposal, resulting in substantial cost savings and increasing plant operating reliability. This paper reviews the thermodynamic aspects of the SO2 and seawater system, basic process principles and chemistry, major unit operations consisting of absorption, oxidation and neutralization, plant operation and performance, cost estimates for a typical seawater FGD plant, and pertinent environmental issues and impacts. In addition, the paper presents the major design features of a seawater FGD scrubber for the 130 MW oil fired steam turbine power plant that is under construction in Madinat Yanbu Al-Sinaiyah, Saudi Arabia. The scrubber with the power plant designed for burning heavy fuel oil containing 4% sulfur by weight, is designed to reduce the SO2 level in flue gas to 425 ng/J from 1,957 ng/J.

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Increase of power and efficiency of the 900 MW supercritical power plant through incorporation of the ORC

Archives of Thermodynamics ◽

10.2478/aoter-2013-0029 ◽

2013 ◽

Vol 34 (4) ◽

pp. 51-71 ◽

Cited By ~ 5

Author(s):

Paweł Ziółkowski ◽

Dariusz Mikielewicz ◽

Jarosław Mikielewicz

Keyword(s):

Power Plant ◽

Heat Source ◽

Steam Turbine ◽

Hybrid System ◽

Heat Recovery ◽

Reference Conditions ◽

Hot Water ◽

Operational Parameters ◽

Reference Case ◽

Unit Power

Abstract The objective of the paper is to analyse thermodynamical and operational parameters of the supercritical power plant with reference conditions as well as following the introduction of the hybrid system incorporating ORC. In ORC the upper heat source is a stream of hot water from the system of heat recovery having temperature of 90 °C, which is additionally aided by heat from the bleeds of the steam turbine. Thermodynamical analysis of the supercritical plant with and without incorporation of ORC was accomplished using computational flow mechanics numerical codes. Investigated were six working fluids such as propane, isobutane, pentane, ethanol, R236ea and R245fa. In the course of calculations determined were primarily the increase of the unit power and efficiency for the reference case and that with the ORC.

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Steam Turbine Driving Compressor for Gas-Steam Combined Cycle Power Plant

Volume 6: Emerging Technologies: Alternative Energy Systems; Energy Systems: Analysis, Thermodynamics and Sustainability ◽

10.1115/imece2009-11040 ◽

2009 ◽

Author(s):

Wancai Liu ◽

Hui Zhang

Keyword(s):

Power Generation ◽

Power Plant ◽

Steam Turbine ◽

Gas Turbine ◽

Combined Cycle ◽

Thermodynamic Process ◽

Combined Cycle Power Plant ◽

Steam Cycle

Gas turbine is widely applied in power-generation field, especially combined gas-steam cycle. In this paper, the new scheme of steam turbine driving compressor is investigated aiming at the gas-steam combined cycle power plant. Under calculating the thermodynamic process, the new scheme is compared with the scheme of conventional gas-steam combined cycle, pointing its main merits and shortcomings. At the same time, two improved schemes of steam turbine driving compressor are discussed.

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Natural Frequency Evaluation of Last Stage Steam Turbine Blade Power Plant Using Finite Element Method

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/1096/1/012092 ◽

2021 ◽

Vol 1096 (1) ◽

pp. 012092

Author(s):

A M Kokong ◽

T Widjayanto ◽

H Setiawan ◽

A R Laksana ◽

I Djunaedi

Keyword(s):

Finite Element Method ◽

Finite Element ◽

Power Plant ◽

Steam Turbine ◽

Natural Frequency ◽

Turbine Blade ◽

Steam Turbine Blade ◽

Last Stage ◽

Element Method

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Simulation of Unsteady Flows in Intermediate Pressure Steam Turbine with Cutback Stator Blade Row

The Proceedings of Mechanical Engineering Congress Japan ◽

10.1299/jsmemecj.2020.j05102 ◽

2020 ◽

Vol 2020 (0) ◽

pp. J05102

Author(s):

Hironori MIYAZAWA ◽

Akihiro UEMURA ◽

Takashi FURUSAWA ◽

Satoru YAMAMOTO ◽

Shuichi UMEZAWA ◽

...

Keyword(s):

Steam Turbine ◽

Unsteady Flows ◽

Intermediate Pressure ◽

Blade Row ◽

Pressure Steam ◽

Stator Blade

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Degradation of Aerodynamic Performance of an Intermediate-Pressure Steam Turbine Due to Erosion of Nozzle Guide Vanes and Rotor Blades

Journal of Engineering for Gas Turbines and Power ◽

10.1115/1.4040566 ◽

2018 ◽

Vol 141 (1) ◽

Cited By ~ 1

Author(s):

Koichi Yonezawa ◽

Tomoki Kagayama ◽

Masahiro Takayasu ◽

Genki Nakai ◽

Kazuyasu Sugiyama ◽

...

Keyword(s):

Numerical Simulations ◽

Steam Turbine ◽

Rotor Blade ◽

Rotor Blades ◽

Flow Angle ◽

Guide Vanes ◽

Intermediate Pressure ◽

Pressure Steam ◽

Nozzle Guide ◽

Nozzle Guide Vanes

Deteriorations of nozzle guide vanes (NGVs) and rotor blades of a steam turbine through a long-time operation usually decrease a thermal efficiency and a power output of the turbine. In this study, influences of blade deformations due to erosion are discussed. Experiments were carried out in order to validate numerical simulations using a commercial software ANSYS-cfx. The numerical results showed acceptable agreements with experimental results. Variation of flow characteristics in the first stage of the intermediate pressure steam turbine is examined using numerical simulations. Geometries of the NGVs and the rotor blades are measured using a 3D scanner during an overhaul. The old NGVs and the rotor blades, which were used in operation, were eroded through the operation. The erosion of the NGVs leaded to increase of the throat area of the nozzle. The numerical results showed that rotor inlet velocity through the old NGVs became smaller and the flow angle of attack to the rotor blade leading edge became smaller. Consequently, the rotor power decreased significantly. Influences of the flow angle of at the rotor inlet were examined by parametric calculations and results showed that the angle of attack was an important parameter to determine the rotor performance. In addition, the influence of the deformation of the rotor blade was examined. The results showed that the degradation of the rotor performance decreased in accordance with the decrease of blade surface area.

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Efficiency of Using the Auxiliary Boiler for Peak Power Generation by a Steam Turbine of NPP

ENERGETIKA Proceedings of CIS higher education institutions and power engineering associations ◽

10.21122/1029-7448-2021-64-1-78-90 ◽

2021 ◽

Vol 64 (1) ◽

pp. 78-90

Author(s):

V. A. Khrustalev ◽

M. V. Garievskii

Keyword(s):

Power Plant ◽

Nuclear Power Plant ◽

Steam Turbine ◽

Nuclear Power ◽

Power Plants ◽

Normal Operation ◽

Heat Output ◽

Generation Process ◽

System Effect ◽

Industrial Enterprises

The article presents the technique of an estimation of efficiency of use of potential heat output of an auxiliary boiler (AB) to improve electric capacity and manoeuvrability of a steam turbine unit of a power unit of a nuclear power plant (NPP) equipped with a water-cooled water-moderated power reactor (WWER). An analysis of the technical characteristics of the AB of Balakovo NPP (of Saratov oblast) was carried out and hydrocarbon deposits near the NPP were determined. It is shown that in WWER nuclear power plants in Russia, auxiliary boilers are mainly used only until the normal operation after start-up whereas auxiliary boiler equipment is maintained in cold standby mode and does not participate in the generation process at power plants. The results of research aimed to improve the systems of regulation and power management of power units; general principles of increasing the efficiency of production, transmission and distribution of electric energy, as well as the issues of attracting the potential of energy technology sources of industrial enterprises to provide load schedules have been analyzed. The possibility of using the power complex NPP and the AB as a single object of regulation is substantiated. The authors’ priority scheme-parametric developments on the possibility of using the thermal power of the auxiliary boilers to increase the power of the steam turbine of a nuclear power plant unit equipped with WWER reactors unit during peak periods, as well as the enthalpy balance method for calculating heat flows, were applied. The surface area of the additional heater of the regeneration “deaerator – high pressure heaters” system and its cost were calculated. On the basis of calculations, it was shown that the additional power that can be obtained in the steam turbine of the NPP with a capacity of 1200 MW due to the use of heat of the modernized auxiliary boiler in the additional heat exchanger is 40.5 MW. The additional costs for the implementation of the heat recovery scheme of the auxiliary boiler at different prices for gas fuel and the resulting system effect were estimated in an enlarged way. Calculations have shown the acceptability of the payback period of the proposed modernization.

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