November 24, 2024
Gholamreza Imani

Gholamreza Imani

Academic Rank: Associate professor
Address:
Degree: Ph.D in Mechanical Engineering-Thermo-Fluids
Phone: 07131222717
Faculty: Faculty of Engineering

Research

Title
Improving the Ideal Gain Output Ratio (GOR) Estimation for the Humidification-Dehumidification Desalination System
Type Thesis
Keywords
Gained Output Ratio, Ideal process, Desalination, Humidification-Dehumidification,Exergy Analysis
Researchers Hossein Shojaei (Student) , Rouhollah Fatehi (Primary advisor) , Gholamreza Imani (Primary advisor)

Abstract

Nowadays, access to freshwater has become a major concern for many people around the globe. The Humidification-dehumidification (HDH) is a desalination method that has recently been developing for use on a small scale in rural areas. According to the literature review, a few numbers of researches done in this field include the Carnot system and thermodynamically balanced systems with air injection from the humidifier to the dehumidifier. It should be noted that the Carnot system considers a water desalination system through a thermodynamic analysis of a general control volume without including the details of the desalination method. Therefore, the maximum value for the energy efficiency obtained from this analysis provides an upper limit for the performance of all of the thermal desalination systems and is not specific to the humidification-dehumidification method. In humidification-dehumidification systems with infinite number of air injection from the humidifier to the dehumidifier, one step is taken forward (compared to the Carnot system) in terms of including the details of the desalination system, however, in thermodynamic analysis of those systems, the conditions of saturated air (100% relative humidity) and thermal equilibrium between humid air and saline water in humidification tower are assumed simultaneously which is thermodynamically impossible. Because from the phase equilibrium analysis it can be shown that the humid air in contact with saline water will have a relative humidity less than 100% when the thermal equilibrium condition is invoked. Therefore, the main purpose of this study is to enhance the prediction of the maximum energy efficiency (ideal) specific to the humidification-humidification method. In order to achieve this goal, in this study, two nearly reversible HDH desalination systems are proposed by removing the entropy production sources (heat transfer with finite temperature difference and mass transfer with finite concentration differen