The focus of this paper is on the part load performance of a small scale (100kWe) combined heat and power (CHP) plant fired by natural gas and solid biomass to serve a residential energy demand. The plant is based on a modified regenerative micro gas turbine (MGT), where compressed air exiting from recuperator is externally heated by the hot gases produced in a biomass furnace; then the air is conveyed to combustion chamber where a conventional internal combustion with natural gas takes place, reaching the maximum cycle temperature allowed by the turbine blades. The hot gas expands in the turbine and then feeds the recuperator, while the biomass combustion flue gases are used for pre-heating the combustion air that feeds the furnace. The part load efficiency is examined considering a single shaft layout of the gas turbine and variable speed regulation. In this layout, the turbine shaft is connected to a high speed electric generator and a frequency converter is used to adjust the frequency of the produced electric power. The results show that the variable rotational speed operation allows high the part load efficiency, mainly due to maximum cycle temperature that can be kept about constant. Different biomass/natural gas energy input ratios are also modelled, in order to assess the trade-offs between: (i) lower energy conversion efficiency and higher investment cost when increasing the biomass input rate; (ii) higher primary energy savings and revenues from feed-in tariff available for biomass electricity fed into the grid. The strategies of base load (BL), heat driven (HD) and electricity driven (ED) plant operation are compared, for an aggregate of residential end-users in cold, average and mild climate conditions.

Part load performance and operating strategies of a natural gas–biomass dual fuelled microturbine for CHP generation / Camporeale, Sm; Fortunato, B; Torresi, M; Turi, Flavia; Pantaleo, Am; Pellerano, A. - STAMPA. - (2014). (Intervento presentato al convegno ASME Turbo Expo: Turbine Technical Conference and Exposition, GT 2014 tenutosi a Duesseldorf, Germany nel June 16-20, 2014) [10.1115/GT2014-27109].

Part load performance and operating strategies of a natural gas–biomass dual fuelled microturbine for CHP generation

Camporeale SM;Fortunato B;Torresi M;Turi, Flavia;
2014-01-01

Abstract

The focus of this paper is on the part load performance of a small scale (100kWe) combined heat and power (CHP) plant fired by natural gas and solid biomass to serve a residential energy demand. The plant is based on a modified regenerative micro gas turbine (MGT), where compressed air exiting from recuperator is externally heated by the hot gases produced in a biomass furnace; then the air is conveyed to combustion chamber where a conventional internal combustion with natural gas takes place, reaching the maximum cycle temperature allowed by the turbine blades. The hot gas expands in the turbine and then feeds the recuperator, while the biomass combustion flue gases are used for pre-heating the combustion air that feeds the furnace. The part load efficiency is examined considering a single shaft layout of the gas turbine and variable speed regulation. In this layout, the turbine shaft is connected to a high speed electric generator and a frequency converter is used to adjust the frequency of the produced electric power. The results show that the variable rotational speed operation allows high the part load efficiency, mainly due to maximum cycle temperature that can be kept about constant. Different biomass/natural gas energy input ratios are also modelled, in order to assess the trade-offs between: (i) lower energy conversion efficiency and higher investment cost when increasing the biomass input rate; (ii) higher primary energy savings and revenues from feed-in tariff available for biomass electricity fed into the grid. The strategies of base load (BL), heat driven (HD) and electricity driven (ED) plant operation are compared, for an aggregate of residential end-users in cold, average and mild climate conditions.
2014
ASME Turbo Expo: Turbine Technical Conference and Exposition, GT 2014
978-0-7918-4565-3
Part load performance and operating strategies of a natural gas–biomass dual fuelled microturbine for CHP generation / Camporeale, Sm; Fortunato, B; Torresi, M; Turi, Flavia; Pantaleo, Am; Pellerano, A. - STAMPA. - (2014). (Intervento presentato al convegno ASME Turbo Expo: Turbine Technical Conference and Exposition, GT 2014 tenutosi a Duesseldorf, Germany nel June 16-20, 2014) [10.1115/GT2014-27109].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/23346
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