Waste Biorefinery Value Addition through Resource Utilization
Coordonnateurs : Bhaskar Thallada, Varjani Sunita, Pandey Ashok, Rene Eldon R.
Waste Biorefinery: Value Addition through Resources Utilization provides scientific and technical information surrounding the most advanced and innovative processing technologies used for the conversion of biogenic waste to biofuels, energy products and biochemicals. The book covers recent developments and achievements in the field of biochemical, thermo-chemical and hybrid methods and the necessities and potentials generated by different kinds of residual streams, including biomass in presumably more decentralized biorefineries. An assortment of case-studies from developing and developed countries illustrate the topics presented, covering energy, chemicals, fuels, food for animal recovery from different waste matrices, and more.
Finally, the advantages and limitations of different technologies are discussed, considering local energy demand, government policies, environmental impacts and education in bioenergy. This book will serve as an excellent resource for science graduates, chemical engineers, environmental engineers, biotechnologists and industrial experts in these areas.
I General1. Waste carbon resources for waste biorefinery: strategies for sustainable recycling2. Sustainable development goals (SDGs) and role of waste biorefinery3. Energy and Environment4. Advances in Conversion processes for complex feeds/streams
II Integrated Biorefineries/Waste Valorization5. Food waste biorefinery6. Case study: Food waste biorefinery7. Case study: Edible crop biorefinery
His 20 years of research experience cover various fields of science revolving around his expertise in heterogeneous catalysis thermo-chemical conversion of biomass, waste plastics and e-waste plastics into value added hydrocarbons. He has prepared several catalysts and thrown a light on the structure activity relationships of novel catalytic materials for hydrotreatment of fossil based crudes. His contributions to the field of sustainable hydrocarbons are in the form of process knowhow and catalyst developments. His patents and publications discuss crucial points encompassing wide areas of thermo-catalytic conversion like pyrolysis and hydrothermal liquefaction for biomass (agricultural, forest residues and aquatic biomass) and plastic waste (industrial and e-waste) conversion. In addition he worked on developing micro-channel reactors for several chemical reactions and separation processes. His other interests include utilization of non-conventional energies for the sustainable production of hydrocarbons utilizing the polymeric wastes available which will make the thermo-chemical methods of conversion more energy efficient.
In view of his expertise, he is on the edito
- Provides information on the most advanced and innovative processes for biomass conversion
- Covers information on biochemical and thermochemical processes and product developments surrounding the principles of biorefining
- Presents information on the integration of processes and technologies for the production of biofuels, energy products and biochemicals
Date de parution : 03-2021
Ouvrage de 536 p.
19x23.3 cm
Thème de Waste Biorefinery :
Mots-clés :
1G ethanol; 2G ethanol; adaptive control; agriculture; anaerobic digestion; astaxanthin; avocado; BECCS; bio-product; bio-sorbents; bioconversion; bioeconomy; bioelectrochemical system; bioenergy; bioenergy with carbon capture and storage; bioethanol; biofuels; biogas; biohydrogen; biological methods of treatment; biomass; biomethane yield; biopolymers; biorefinery; biowaste; brewer’s spent grain; carotenoids; cascading bioenergy system; challenge; chrome tanned waste; circular bioeconomy; COD removal; energy; energy recovery; environmental assessment; environmental protection; estimation; EU; extraction; fermentation; food waste; integrated processes; integration; plantain; lignocellulose; maximum power production; microalgae; microalgae growth; microbial electrolysis cell; municipal solid waste (MSW); nutrient recycling; oily sludge; OPEFB; organic waste; palm oil; perspectives; petroleum industry; Phaffia rhodozyma; polyols; POME; recycling; renewable energy; scale-up; SCGs; sludge; small-scale biorefineries; sonication; sugarcane; sustainability; tannery waste; technoeconomic analysis; thermo-chemical methods of conversion; thermochemical process; traditional technologies; value-added products; volatile fatty acids (VFA); waste carbon sources; waste management; waste to energy (WTE); wastes; wastewater; wastewater treatment plant; zero liquid discharge
