Thermoeconomic Analysis and Optimization of a Gas Turbine Plant Combined With an Absorption Unit

Lucia, Maurizio De; Carcasci, Carlo; Matucci, Antonio

doi:10.1115/97-gt-175

Cited by 1 publication

(2 citation statements)

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“…The purpose of this experimental phase (presented both here and in a subsequent thermoeconomic evaluation (De Lucia et al, 1997) is to analyze the performance of the integrated system proposed for this project in comparison with a traditional system for producing thermal FIGURE 3 : Absorption Unit and cooling energy. Particular attention was devoted to the cooling system.…”

Section: Data Acquisition Systemmentioning

confidence: 99%

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A Small Gas Turbine Plant for Cogeneration of Electricity, Thermal and Cooling Thermal Energy With an Absorption Unit

Lucia

Lanfranchi

Matucci

1997

Volume 3: Heat Transfer; Electric Power; Industrial and Cogeneration

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A cogeneration plant with a small gas turbine was installed in a pharmaceutical factory and instrumented for acquiring all the values necessary to appraise both its energetic and cost advantages. The plant was designed and built as a demonstrative project under a program for energy use improvement in industry, partially financed by the European Union. The system comprises as its main components: 1) a gas turbine cogeneration plant for production of power and thermal energy under the form of hot water, superheated water, and steam; 2) a two-stage absorption unit, fueled by the steam produced in the cogeneration plant, for production of cooling thermal energy. The plant was provided with an automatized control system for the acquisition of plant operating parameters. The large amount of data thus provided made it possible to compare the new plant, under actual operating conditions, with the previously existing cooling power station with compression units, and with a traditional power plant. This comparative analysis was based on measurements of the plant operating parameters over nine months, and made it possible to compare actual plant performance with that expected and ISO values. The analysis results reveal that gas turbine performance is greatly affected by part-load as well as ambient temperature conditions. Two-stage absorber performance, moreover, turned out to decrease sharply and more than expected in off-design operating conditions.

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Section: Data Acquisition Systemmentioning

confidence: 99%

“…On the whole, the behavior of the gas turbine can be considered satisfactory in view of the fact that the small size machine and the working conditions behaved excellently even with partial loads. For more details of performance analysis see (De Lucia et al, 1997, Hill J.P., 1992 which presents a thermoeconomic evaluation.…”

Section: Performance Evaluationmentioning

confidence: 99%