Feedstock type drives surface property, demineralization and element leaching of nitric acid-activated biochars more than pyrolysis temperature

Keyphrases

• Pyrolysis Temperature 100%
• Surface Properties 100%
• Acid Activation 100%
• Nitric Acid 100%
• Demineralization 100%
• Surface Element 100%
• Biochar 100%
• Feedstock Type 100%
• Element Leaching 100%
• Activated Biochar 100%
• Nitric Acid Activation 37%
• Manure 25%
• Mineral Elements 25%
• Element Composition 25%
• Ash Content 25%
• Mineral Phase Composition 25%
• Adsorbent 12%
• Potassium 12%
• Three-temperature 12%
• Thermal Stability 12%
• Protonation 12%
• Activation Effect 12%
• Mineral Phase 12%
• Pore Volume 12%
• Sylvite 12%
• Quartz Content 12%
• Sawdust Biochar 12%

Engineering

• Pyrolysis 100%
• Biochar 100%
• Mineral Phase 27%
• Phase Composition 18%
• Element Composition 18%
• Ash Content 18%
• Protonation 9%

Chemical Engineering

• Pyrolysis 100%
• Nitric Acid 100%