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Exergoeconomic and Environmental Modeling of Integrated Polygeneration Power Plant with Biomass-Based Syngas Supplemental Firing

Fidelis I. Abam, Ogheneruona E. Diemuodeke, Ekwe B. Ekwe, Mohammed A. Alghassab, Olusegun David Samuel, Zafar A. Khan, Muhammad Imran, Muhammad Farooq

2020Energies29 citationsDOIOpen Access PDF

Abstract

There is a burden of adequate energy supply for meeting demand and reducing emission to avoid the average global temperature of above 2 °C of the pre-industrial era. Therefore, this study presents the exergoeconomic and environmental analysis of a proposed integrated multi-generation plant (IMP), with supplemental biomass-based syngas firing. An in-service gas turbine plant, fired by natural gas, was retrofitted with a gas turbine (GT), steam turbine (ST), organic Rankine cycle (ORC) for cooling and power production, a modified Kalina cycle (KC) for power production and cooling, and a vapour absorption system (VAB) for cooling. The overall network, energy efficiency, and exergy efficiency of the IMP were estimated at 183 MW, 61.50% and 44.22%, respectively. The specific emissions were estimated at 122.2, 0.222, and 3.0 × 10−7 kg/MWh for CO2, NOx, and CO, respectively. Similarly, the harmful fuel emission factor, and newly introduced sustainability indicators—exergo-thermal index (ETI) and exergetic utility exponent (EUE)—were obtained as 0.00067, 0.675, and 0.734, respectively. The LCC of $1.58 million was obtained, with a payback of 4 years, while the unit cost of energy was estimated at 0.0166 $/kWh. The exergoeconomic factor and the relative cost difference of the IMP were obtained as 50.37% and 162.38%, respectively. The optimum operating parameters obtained by a genetic algorithm gave the plant’s total cost rate of 125.83 $/hr and exergy efficiency of 39.50%. The proposed system had the potential to drive the current energy transition crisis caused by the COVID-19 pandemic shock in the energy sector.

Topics & Concepts

ExergyExergy efficiencySyngasWaste managementEnvironmental scienceEngineeringBiomass (ecology)Combined cycleProcess engineeringEnvironmental engineeringAbsorption refrigeratorPayback periodNatural gasTurbineProduction (economics)Mechanical engineeringChemistryHydrogenRefrigerationMacroeconomicsOrganic chemistryOceanographyGeologyEconomicsThermodynamic and Exergetic Analyses of Power and Cooling SystemsAdvanced Thermodynamics and Statistical MechanicsSolar Thermal and Photovoltaic Systems