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Biomass-A Renewable Resource for Carbon Materials

Grateful thanks are given to Dr. Fouad El Monsouri and coworkers for contributing Chapter 1, which deals with ground water contamination with nitrate. Thanks are due to Dr. Arcadius Martininen Agassin Ahogle and coworkers for contributing Chapter 2, dealing with the assessment of soil organic carbon...

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Bibliographic Details
Main Author: Pulidindi, Indra
Other Authors: Sharma, Pankaj, Gedanken, Aharon
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Groundwater
Dcfc
Limitations
Biodegradable
Soil Chemical Characterization
Bioenergy
Vacuum Residue
Particulate Organic Carbon
Nitrogen Doping
Lauric Acid
Activated Carbon
Humic Acids
Atenolol
Supercapacitor
Electrochemistry
Leaching
Modification
Biogas Production
Essential Oils
Environmentally Safe
Eucalyptus Leaves
Hydroxypropyl Methylcellulose
Sustainable Farming Systems
Nitrate Contamination
Research & Information: General / Bicssc
Biorefineries
Exhausted Olive Pomace
Biogas
Carbon Nanotechnology
Rubber Composite
Biomass Wastes
Physical Chemistry / Bicssc
Bactericidal Properties
Chemical Activation
Biochar
Organic Mass
Energy Security
Carbon Sequestration
Gasification
Stipa Tenacissima
Hydrogel Films
Adsorption
Biomass Valorization
Chemistry / Bicssc
Particle-size Fractionation
Surface Treatment
Biomethane
Hybrid
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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653 |a nitrogen doping 
653 |a lauric acid 
653 |a activated carbon 
653 |a humic acids 
653 |a atenolol 
653 |a supercapacitor 
653 |a electrochemistry 
653 |a leaching 
653 |a modification 
653 |a biogas production 
653 |a essential oils 
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653 |a eucalyptus leaves 
653 |a hydroxypropyl methylcellulose 
653 |a sustainable farming systems 
653 |a nitrate contamination 
653 |a Research & information: general / bicssc 
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653 |a exhausted olive pomace 
653 |a biogas 
653 |a carbon nanotechnology 
653 |a rubber composite 
653 |a biomass wastes 
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653 |a bactericidal properties 
653 |a chemical activation 
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653 |a energy security 
653 |a carbon sequestration 
653 |a gasification 
653 |a Stipa tenacissima 
653 |a hydrogel films 
653 |a adsorption 
653 |a biomass valorization 
653 |a Chemistry / bicssc 
653 |a particle-size fractionation 
653 |a surface treatment 
653 |a biomethane 
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520 |a Grateful thanks are given to Dr. Fouad El Monsouri and coworkers for contributing Chapter 1, which deals with ground water contamination with nitrate. Thanks are due to Dr. Arcadius Martininen Agassin Ahogle and coworkers for contributing Chapter 2, dealing with the assessment of soil organic carbon. Grateful thanks are provided to Dr. Puttapati Sampath Kumar and coworkers for contributing Chapter 3, dealing with the exploitation of eucalyptus leaves for electrode fabrication in supercapacitors. Indebtedness is due to Dr. Almaz S Jalilov and coworkers for contributing Chapter 4, dealing with the production of activated carbon from petroleum waste (vacuum residue). Thanks are due to Dr. Yongdan Li and coworkers for contributing Chapter 5, dealing with the use of exhausted olive pomace for the production of fuel for direct carbon fuel cells (DCFC). Grateful thanks are due to Dr. Roberta Mota-Panizio and coworkers for Chapter 6, dealing with the development of a concept for the production of essential oils and biomethane from biomass waste. Thanks are due to Dr. Vitali Nitsenko and coworkers for contributing Chapter 7, dealing with the modelling studies on the yield of biogas from organic mass. Thanks are due to Dr Imane Moulefera and coworkers for contributing Chapter 8, dealing with the adsorption of atenolol. Grateful indebtedness is due to Dr. Denis Mirohnichenko and coworkers for contributing Chapter 9, dealing with the development of bioedegradable polymer gels. Finally, indebtedness is due to Dr. Steven C Peterson and coworkers for contributing Chapter 10, dealing with the production of porous and polar biochar for composite applications. 

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