Development of modified MgO/biochar composite for chemical adsorption enhancement to cleanup fluoride-contaminated groundwater

Keyphrases

• Fluoride 100%
• Contaminated Water 100%
• Magnesium Oxide 100%
• Chemical Adsorption 100%
• Biochar Composites 100%
• Adsorption Enhancement 100%
• Spent Coffee Grounds 47%
• Rice Husk 42%
• Fluoride Adsorption 21%
• Groundwater 15%
• Pore Structure 10%
• Adsorbent Materials 10%
• Spent Coffee Ground Biochar 10%
• Fluoride Contamination 10%
• Adsorbent 5%
• Synthesis Methods 5%
• Isotherm 5%
• Adsorption Process 5%
• Experiment Results 5%
• Batch Experiments 5%
• Maintenance Cost 5%
• Calcination 5%
• Ground Surface 5%
• Removal Rate 5%
• Crystal Phase 5%
• Operation Cost 5%
• Carbon Materials 5%
• Adsorption Properties 5%
• Contact Surface Area 5%
• Oxide Crystals 5%
• Reactive Sites 5%
• Adsorption Performance 5%
• Adsorption Capacity 5%
• Environmental Pollution 5%
• Adsorption Mechanism 5%
• Production Operation 5%
• Agricultural Waste 5%
• Monolayer Adsorption 5%
• Rice Husk Biochar 5%
• Food Waste 5%
• Fluoride Removal 5%
• Langmuir Isotherm Equation 5%
• Total Production Maintenance 5%
• Waste Products 5%
• Polluted Groundwater 5%
• Production Cost Reduction 5%
• Grounding Material 5%
• Fluoride Concentration 5%
• Effective Doping 5%
• Fluoride Pollution 5%
• Fluoride Adsorbent 5%
• Adsorbent Synthesis 5%
• Pseudo-second Order Kinetic Model 5%
• Effective Dispersion 5%
• Porous Adsorbent 5%
• Global Environmental Issues 5%

Material Science

• Magnesium Oxide 100%
• Chemisorption 100%
• Composite Material 100%
• Biochar 100%
• Pore Structure 10%
• Monolayers 5%
• Calcination 5%
• Kinetic Order 5%
• Surface (Surface Science) 5%
• Crystalline Material 5%
• Adsorbent 5%

Chemical Engineering

• Magnesia 100%
• Biochar 100%
• Chemisorption 100%
• Calcination 5%
• Process Synthesis 5%
• Monolayer Adsorption 5%
• Adsorption Performance 5%
• Pseudo-second Order Kinetic Model 5%
• Adsorption Properties 5%