Keyphrases
High Performance
100%
Desalination Process
100%
Energy Efficient
100%
Distillation System
100%
Self-heated
100%
Membrane Distillation
100%
Graphene
66%
Flat Sheet Membrane
50%
Joule Heater
50%
Vacuum Membrane Distillation
50%
Permeate Flux
33%
Seawater Desalination
33%
Solar Energy
16%
Renewable Energy
16%
Filtration
16%
Water Energy
16%
Phase Inversion
16%
High Porosity
16%
Promising Strategies
16%
High Gain
16%
Electrical Energy
16%
Surface Temperature
16%
Superhydrophobicity
16%
Economic Viability
16%
Feed Temperature
16%
Desalination Technology
16%
Superhydrophobic
16%
Safe Drinking Water
16%
Low-grade Waste Heat
16%
Joule Heating
16%
Environmental Pollution
16%
High Purity Water
16%
Water Production
16%
Energy Requirement
16%
DC Power
16%
Energy Crisis
16%
Effective Approach
16%
Membrane Surface
16%
Solar Heating
16%
Water Desalination
16%
Experimental Variables
16%
Energy Solar
16%
Temperature Polarization
16%
Salt Rejection
16%
Specific Heating Energy
16%
Membrane Interface
16%
Induction Heating
16%
Direct Delivery
16%
Low Voltage DC
16%
Feed Solution
16%
Gain Output Ratio
16%
Joule Heating Performance
16%
Interfacial Heat Transfer
16%
FVM Method
16%
Membrane Area
16%
Economic Applications
16%
Photothermal Heating
16%
Engineering
Energy Engineering
100%
Desalination
100%
Membrane Distillation
100%
Graphene
80%
Flat Sheet Membrane
60%
Feed Stream
60%
Vacuum Membrane Distillation
60%
Permeate Flux
40%
Experimental Result
20%
Solar Energy
20%
Potential Application
20%
Phase-Inversion
20%
Renewable Energy
20%
Electrical Energy
20%
Desalination Technology
20%
Membrane Surface
20%
Effective Approach
20%
Purity Water
20%
Inversion Technique
20%
Energy Requirement
20%
Energy Crisis
20%
Heating Energy
20%
Feed Solution
20%
Gain Output Ratio
20%
Experimental Variable
20%
Solar Heating
20%
Induction Heating
20%
Feed Temperature
20%
Membrane Interface
20%
Membrane Area
20%
Chemical Engineering
Graphene
100%
Joule Heating
50%
Solar Heating
25%
Induction Heating
25%