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Full Description
Biomasses serve as primary examples of bio-waste conversion for value-added products. The processes presented in this book are also applicable to similar bio-wastes. Each chapter details the bioconversion, bioprocessing, and downstream processing of chemical substitutes derived from used biomass, produced through mild methods and ending with zero waste. This approach bypasses the challenges associated with conventional methods. This conversion process offers a twofold benefit: mitigating air pollution from bad disposal as waste open burning and producing environmentally friendly alternatives for petroleum-based products.
Key Features
Primary Renewable Source for Chemical Feedstocks Biomass is emerging as the leading renewable alternative to petrochemicals, offering a sustainable pathway for producing chemical raw materials while reducing dependence on fossil fuels.
Waste-to-Value Conversion Technology The research focuses on transforming various bio-wastes (straws, used oil, urine, chicken feathers, gelatin, and paper wastes) into valuable industrial raw materials through innovative chemical recycling processes.
Environmental Dual Benefits The bioconversion process provides two major environmental advantages: preventing air pollution from improper waste disposal (like open burning that causes "black clouds") and creating eco-friendly alternatives to petroleum-based products.
Cost-Effective Industrial Applications The technology offers low-cost processes that produce affordable local alternatives to imported products, providing significant economic benefits alongside environmental improvements.
Zero-Waste Mild Processing Methods The approach utilizes gentle, environmentally friendly processing techniques that result in complete waste elimination, bypassing the challenges and harsh conditions associated with conventional chemical manufacturing methods. These features highlight how biomass conversion technology addresses multiple challenges simultaneously: environmental protection, economic efficiency, and sustainable industrial development.
Contents
Preface. Author Bios. Introduction. Chapter 1. Solar-Acid Dissociation of Bleached Pulp: Synthesis, Characterization, and Applications of Microcrystalline Cellulose and its Cyanoacetyl Derivative. Chapter 2. Enhancing the Synthetic Utility of Biomass-Derived Building Blocks. Chapter 3. Novel Green Additives from Lignin/Silica/Fatty Acid Hybrids. Chapter 4. Preparation of Crude Hemicellulose-based Enzymes . Chapter 5. Green Biopesticides Utilizing Feathers and Modified Naturally Silicate Liquor Wastes. Chapter 6. Zero-Waste Eco-Friendly Solar Pulping Process. Index
