Abstract
Water desalination by membrane distillation (MD) can be affected by a wide range of operating parameters. The present work uses combinational approach of Analytical Hierarch process (AHP) and Fuzzy Analytical Hierarchy process (Fuzzy-AHP) to identify the most important parameters in the MD desalination. Five process parameters and key-performance indicators, named derivable outputs (DOs), are considered, along with the critical factors affecting these DOs in the current study. The DOs and the critical influencing factors (CIFs) are selected based on their experimental feasibility. The investigation involves five DOs, which are liquid entry pressure, thermal power consumption, permeate quality, permeate flux, and pumping (feed circulation) power. A total of twenty-five critical influencing factor were associated with the DOs. The identification of the DOs and CIFs was based on the literature review, and further analyses were performed. Both methods, AHP and Fuzzy-AHP, determined six extremely important CIFs in the desalination MD, which are feed temperature, feed concentration, or feed salinity; feed flow rate; membrane hydrophobicity; pore size; and membrane material. Moderately important CIFs are found to be four by both methods. These common CIFs are feed solution properties, membrane thickness, feed channel geometry, and pressure difference along the feed channel. Finally, the least preferred CIFs are four common in both methods that are MD configuration, duration of test, specific heat of feed solution, and viscosity.
Highlights
Based on the attempts of different researchers and their study on different factors which were influencing the process of membrane distillation (MD), five types of derivable outputs are considered for evaluation
Weights from Analytical Hierarch process (AHP)-multiple decision-makers (MDM) are subjective weights, as it purely depends on the decision-maker
An attempt was made to prioritize the derivable outputs based on critical influencing factors (CIFs) of desalination by MD
Summary
Industrialization, diminishing rainfall and global warming worsened the situation further to reach a critical point wherein available pure water is getting exhausted [1]. To meet these constant increasing water needs, seawater desalination or brackish water treatment can be helpful to face the global demand of freshwater. Abundant water supply can be obtained by seawater desalination, which includes separation of impurities, minerals, and salts to reduce the excessive salt concentration of the seawater to become portable water. This removal of salt from seawater is an expensive process [2]
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