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Because of the present ineffective method of soot blowing on a boiler’s heating surface in a coal-fired power plant, and to improve the economic benefit of the boiler in the power plant, weigh the improvement of boiler efficiency and steam loss brought by soot blowing, and ensure the safe operation of the unit, an optimization model of soot blowing on the boiler’s heating surface
Get A QuoteIt is observed that applying genetic algorithm in the thermodynamic optimization of a case study (Egbin power plant) boiler, the percentage increase in the thermal efficiency is 4.76% and 3.89% in comparison with the existing values for the studied boiler at Egbin
Get A QuoteEnergy and Environment both is the core for human comfort and global survival now days. Thermodynamic Analysis of Furnace/Boiler coupled with a steam power plant has been carried out in order to evaluate its performance and irreversibility's by
Get A QuoteAbstract Energy and Environment both is the core for human comfort and global survival now days. Thermodynamic Analysis of Furnace/Boiler coupled with a steam power plant has been carried out in order to evaluate its performance and irreversibility's by using the
Get A QuoteAn exergy analysis is performed to guide the thermodynamic improvement for this cycle. The exergy and irreversibility analyses of each component of the cycle are determined. Effects of turbine inlet pressure, boiler exit steam temperature, and condenser pressure …
Get A Quote1/3/2021 · The boiler superheater undergoes load cycling transients, once the thermal power plant participates in peak shaving. Thermodynamic optimization of a superheater is carried out by optimizing the flowrate/temperature matches between the hot and cold fluids during switching the load …
Get A Quote31/10/2008 · An optimization formulation is developed to provide a generally applicable tool for integrating the process and the power cycle and for identifying the optimum equipment size, operating parameters (such as boiler pressure, superheat temperature and steam load).
Get A QuoteAbstract Energy and Environment both is the core for human comfort and global survival now days. Thermodynamic Analysis of Furnace/Boiler coupled with a steam power plant has been carried out in order to evaluate its performance and irreversibility's by using the
Get A Quote1/3/2021 · In this study, the thermodynamic optimization of a supercritical boiler superheater during switching the load transient is carried out based on dynamic modeling and exergy analysis. The superheater outlet temperatures, including hot fluid temperature ( t h,out )/cold fluid temperature ( t c,out ) and heat transfer metal temperature ( t m,out ), are discussed.
Get A QuoteThis study is on the steam boiler of a 220MW steam power plant which converts the feed water at temperature 204 o C to superheated steam at pressure 12,990 kPa and temperature 541 o C, and also converts cold reheat steam to hot reheat steam at pressure 3,398 kPa and
Get A QuoteIn this paper, genetic algorithm implemented in Matlab is used for the optimization of the boiler unit at Egbin power plant. Based on thermodynamic consideration of a boiler, the thermal efficiency of the boiler for 2008 and 2009 is computed.
Get A Quote23/1/2021 · Thermodynamic optimization of steam boiler parameter using genetic algorithm. Innovative Systems Design and Engineering ISSN 2222-2871, 6(11). Einstein, D., Worrell, E., & Khrushch, M. (2001). Steam systems in industry: Energy use and energy efficiency.
Get A QuoteIt is observed that applying genetic algorithm in the thermodynamic optimization of a case study (Egbin power plant) boiler, the percentage increase in the thermal efficiency is 4.76% and 3.89% in comparison with the existing values for the studied boiler at Egbin
Get A QuoteEnergy and Environment both is the core for human comfort and global survival now days. Thermodynamic Analysis of Furnace/Boiler coupled with a steam power plant has been carried out in order to evaluate its performance and irreversibility's by
Get A Quote15/11/2020 · The impact of closed Feedwater Heaters (FWHs) on the functionality indices of the selected power plant was examined. Results of the study show that as the number of closed FWH increases from one to ten, the thermal efficiency and boiler efficiency rise from 42.17% to …
Get A Quote15/8/2004 · The BHM relies on the principle of the calculation of boiler efficiency. Fig. 2 shows us the relation between steam load (Q steam), heat losses (Q loss) and fuel requirement (Q fuel).The numerical expression for this relation is (1) Q fuel =Q loss +Q steam The definition of steam load yields (2) Q steam =(h 2 −h 1)M where h 1 is the enthalpy of boiler inlet water; h 2 the enthalpy of steam
Get A Quote18/10/2020 · - The amount of steam which is generated by boilers in accordance with required amount to drive turbine generator. The amount of steam produced is usually in Thermodynamic Optimization of Steam Boiler Parameter - Core Thermodynamic Optimization of Steam Boiler Parameter Using.
Get A Quote15/11/2020 · The mean difference between the temperature of the steam and the saturation temperature at the boiler working pressure is 3.5 C for the studied situations. ln order to calculate the fuel consumed by the cycle, a boiler efficiency of 87% was set, based on the.
Get A Quote1/6/2012 · A simple thermodynamic model is not sufficient for the complete analysis of the behaviors of the plant. As shown in the Fig. 1, there are 20 physical devices and 47 mass (energy) flows. Each device has its own productive purpose, such as steam for the boiler
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