Litcius/Paper detail

Conventional and advanced exergy and exergoeconomic analysis of a novel multi-fueled cogeneration system with desalination

Farbod Esmaeilion, M. Soltani, Jatin Nathwani, Armughan Al‐Haq, Maurice B. Dusseault

2023Energy Reports25 citationsDOIOpen Access PDF

Abstract

This work presents the economic, advanced thermodynamic, and exergoeconomic studies of a system for producing power and freshwater. The proposed system comprises a multi-effect desalination system, an organic Rankine cycle, a centrifuge, and process heaters by utilizing a mix of bagasse and municipal solid waste as primary fuels. The amounts of avoidable, unavoidable, endogenous, and exogenous shares of exergy destruction for the cycle’s components have been calculated by an advanced exergy method. For the integrated cycle, the electricity generation and freshwater productions are 36.6 MW and 7000 m3 per day, respectively. The costs of electricity production and water desalination are 2.6 US$/GJ and 4.6 US$/m3. To present an improved understanding of the system operation, an advanced exergy study is conducted on each involved component of the system at their operating conditions to identify the share of the avoidable irreversibilities. For the integrated system, 85% of the total exergy destruction is calculated to be unavoidable and just 15% of the estimated amount is avoidable. In this case, the opportunity to enhance the system’s operation is roughly limited. Additionally, 76% of the exergy destruction is endogenous, and the remaining belongs to exogenous exergy destruction.

Topics & Concepts

ExergyCogenerationDesalinationWaste managementProcess engineeringBagasseOrganic Rankine cycleEnvironmental scienceExergy efficiencyEngineeringElectricityEnvironmental engineeringElectricity generationWaste heatChemistryPower (physics)Mechanical engineeringPulp and paper industryThermodynamicsElectrical engineeringHeat exchangerBiochemistryPhysicsMembraneThermodynamic and Exergetic Analyses of Power and Cooling SystemsSolar Thermal and Photovoltaic SystemsAdvanced Thermodynamics and Statistical Mechanics