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Start Over Descriptor "Bioeconomy" Publication Type Books
13 results on '"Bioeconomy"'

4. From Waste to Value

Author

Klitkou, Antje, Fevolden, Arne Martin, and Capasso, Marco

Subjects
Aquaculture, bioeconomy, bio-based industry, circular bioeconomy., Nordic, organic waste, organic waste streams, organic waste valorisation, Urban waste management
Abstract

From Waste to Value investigates how streams of organic waste and residues can be transformed into valuable products, to foster a transition towards a sustainable and circular bioeconomy. The studies are carried out within a cross-disciplinary framework, drawing on a diverse set of theoretical approaches and defining different valorisation pathways. Organic waste streams from households and industry are becoming a valuable resource in today’s economies. Substances that have long represented a cost to companies and a burden for society are now becoming an asset. Waste products, such as leftover food, forest residues and animal carcasses, can be turned into valuable products such as biomaterials, biochemicals and biopharmaceuticals. Exploiting these waste resources is challenging, however. It requires that companies develop new technologies and that public authorities introduce new regulation and governance models. This book helps policy-makers govern and regulate bio-based industries, and helps industry actors to identify and exploit new opportunities in the circular bioeconomy. Moreover, it provides important insights for all students and scholars concerned with renewable energy, sustainable development and climate change. The Open Access version of this book, available at http://www.taylorfrancis.com, has been made available under a Creative Commons Attribution-Non Commercial-No Derivatives (CC-BY-NC-ND) 4.0 license.

Published
2023
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7. Bioeconomy and Global Inequalities

Author

Backhouse, Maria, Lehmann, Rosa, Lorenzen, Kristina, Lühmann, Malte, Puder, Janina, Rodríguez, Fabricio, and Tittor, Anne

Subjects
Environmental Policy, Sociology, general, Environmental Geography, Energy Policy, Economics and Management, Environmental Management, Sustainable Development, Environmental Social Sciences, Environmental Studies, Sustainability, Integrated Geography, bioeconomy, knowledge-based bioeconomy, bioenergy, biomass, global socio-ecological inequalities, transnational entanglements, global inequalities, bioenergy policies, sustainable energy transition, socio-ecological inequalities, social justice, just energy transition, open access, Central / national / federal government policies, Sociology, Development & environmental geography, Energy technology & engineering, Energy industries & utilities, Environmental management, Physical geography and topography, Energy technology and engineering
Abstract

This open access book focuses on the meanings, agendas, as well as the local and global implications of bioeconomy and bioenergy policies in and across South America, Asia and Europe. It explores how a transition away from a fossil and towards a bio-based economic order alters, reinforces and challenges socio-ecological inequalities. The volume presents a historically informed and empirically rich discussion of bioeconomy developments with a particular focus on bio-based energy. A series of conceptual discussions and case studies with a multidisciplinary background in the social sciences illuminate how the deployment of biomass sources from the agricultural and forestry sectors affect societal changes concerning knowledge production, land and labour relations, political participation and international trade. How can a global perspective on socio-ecological inequalities contribute to a complex and critical understanding of bioeconomy? Who participates in the negotiation of specific bioeconomy policies and who does not? Who determines the agenda? To what extent does the bioeconomy affect existing socio-ecological inequalities in rural areas? What are the implications of the bioeconomy for existing relations of extraction and inequalities across regions? The volume is an invitation to reflect upon these questions and more, at a time when the need for an ecological and socially just transition away from a carbon intensive economy is becoming increasingly pressing.

Published
2021
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8. Healthcare Biotechnology

Author

Dogramatzis, Dimitris

Subjects
Biotechnology, Biopharmaceutics, Healthcare Management, BUSINESS/MANAGEMENT, PHARMACEUTICAL, BIOSCIENCE, SCI-TECH, BIOMEDICALSCIENCE, INFORMATIONSCIENCE, STM, Biodrug Research, Bioeconomy, Biolicensing, Biomanufacturing, Intellectual Property Management, Management and management techniques, Pre-clinical medicine: basic sciences, Pharmacology, Biomedical engineering
Abstract

Foreseeing and planning for all of the possibilities and pitfalls involved in bringing a biotechnology innovation from inception to widespread therapeutic use takes strong managerial skills and a solid grounding in biopharmaceutical research and development procedures. Unfortunately there has been a dearth of resources for this aspect of the field.

Published
2020
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9. Biochemical and Thermochemical Conversion Processes of Lignicellulosic Biomass Fractionated Streams.

Author

Matsakas, Leonidas, Matsakas, Leonidas, and Trubetskaya, Anna

Subjects
Technology: general issues, 2nd generation sugars, 31P NMR, Acacia tortilis, Cryptococcus curvatus, HSQC, Kraft lignin, Lipomyces starkeyi, Napier grass, TGA, acid pretreatment, alkali pretreatment, bio-based reductant, bioeconomy, bioethanol, biofuel, biomass, biomass fractionation, biomimetic, biorefinery, catalytic lignin oxidation, charcoal, coal, coke, electrical resistivity, enzymatic hydrolysis, enzyme hydrolysis, etherification, ferroalloy industry, furfural, glucose, heat treatment, high-temperature treatment, hydrolyzate, hydroxymethylfurfural, ionosolv, kiln, life cycle assessment, lignin, lignin functionalization, lignocellulose, lignocellulosic sugars, metallurgical coke, microbial lipid, microwave-assisted pretreatment, mining, molybdate, n/a, olive mill wastewater, organosolv, organosolv fractionation, oxidative lignin upgrade, pine dust, pretreatment parameters, pyrolysis, sustainable biomass growth, thermoplastics, vanadate, xylose
Abstract

Summary: Moving towards a sustainable and green economy requires the use of renewable resources for the production of fuels, chemicals, and materials. In such a scenario, the use of lignocellulosic biomass and waste streams plays an important role, as it consists of abundant renewable resources. The complex nature of lignocellulosic biomass dictates the use of a pretreatment process prior to any further processing. Traditional methods of biomass pretreatment fail to recover cellulose, hemicellulose, and lignin in clean streams. It has been recognized that the efficient use of all the main fractions of lignocellulosic biomass (cellulose, hemicellulose, and lignin) is an important step towards a financially sustainable biomass biorefinery. In this context, switching from biomass pretreatment to biomass fractionation can offer a sustainable solution to recover relatively clean streams of cellulose, hemicellulose, and lignin. This Special issue aims at exploring the most advanced solutions in biomass and waste pretreatment and fractionation techniques, together with novel (thermo)chemical and biochemical processes for the conversion of fractionated cellulose, hemicellulose and lignin to bioenergy, bio-based chemicals, and biomaterials, including the application of such products (i.e., use of biochar for filtration and metallurgical processes), as well as recent developments in kinetic, thermodynamic, and numeric modeling of conversion processes. The scope of this Special Issue will also cover progress in advanced measuring methods and techniques used in the characterization of biomass, waste, and products.

10. Innovations and Perspectives of Industrial and Bioenergy Crops for Bioeconomy Development.

Author

Stolarski, Mariusz and Stolarski, Mariusz

Subjects
History of engineering & technology, Technology: general issues, CAP payments, Carabidae, Italy, Jerusalem artichoke, Miscanthus, Nicotiana tabacum, Poland, SRC, Salix, Silphium perfoliatum, Tenebrio molitor, abandoned areas, aboveground, agricultural and industrial residues, agroforestry, antimicrobial activity, antioxidant activity, ash, belowground part of Miscanthus × giganteus, biocidal effect, bioconversion, biodiversity, bioeconomy, bioenergy crop, biogas, biogas potential, biological diversity, biomass supply, biomass yield, biometric features, bioproduction, browsing damage, calcium, calorific value, carbon sequestration, cervids, circular economy, common osier, consumer choices, cup plant, dry biomass yield, dry matter yield, economics, ecosystem services, edible insects, energy, energy biomass, energy crops, energy expenses, energy plants, energy yield, eucalyptus, feed conversion ratio, fertilization, firewood, fresh biomass yield, gas chromatography, genoype × site interaction, ground beetles, groundwater, growth, harvesting, harvesting efficiency, higher heating value, hulled wheat species, invasive behavior, invasive potential, invertebrate biodiversity, land use and land-use change, larval development, leaves, life cycle assessment, lignocellulosic biomass, marginal land, marginal soil, multilevel logistic regression model, n/a, nitrogen fertilization, organic farming, perennial crops, perennial energy crop, perennial industrial crops, plant height, planting density, polyphenols, potassium, prairie cordgrass, quarry, reproductive potential, rhizomes, silvergrass, soil bulk density, soil chemical parameters, soil microbial carbon, soil moisture, soil properties (physical and chemical), soluble carbohydrates, stem, sulphur content, supercritical CO2 extraction, supercritical extraction, supply chain, survivability, sustainable agriculture, syntropy, tobacco biomass, unutilized agricultural areas (uUAA), uptake, varieties, vegetation restoration, water as co-solvent, water table distance, water-stable aggregates, willingness to consume, willow, willow SRC, willow browse, willow-leaf sunflower, willowleaf sunflower, work productivity, yield, yields
Abstract

Summary: The production of industrial and bioenergy crops has been the subject of scientific research for many years; however, the implementation of previously proposed solutions for commercial production is still at an early stage. It should be emphasized that when developing the production of industrial and bioenergy crops on agricultural lands, it is important to avoid land-use competition with the production of food and feed. It is well justified, for initiating the sustainable production of industrial and bioenergy crops, to promote efficient species for growing on marginal lands, which are unsuitable or less suitable for food or feed production. Another important point is that industrial and bioenergy crops should include nonfood and nonfeed crops and generate agricultural products categorized as commodities and/or raw materials for industrial goods and bioenergy. These industrial and bioenergy crops can become an important source of biomass. Of course, the concept of their cultivation for nonfood (and/or nonfeed) uses is not new but, despite considerable investment in research and development, little progress has been made with regard to the introduction of such crops and their products into the market. Therefore, the papers focus on innovations and perspectives regarding sustainable industrial and bioenergy crops production, logistic chains, biomass quality, utilization and cascade biomass use for bioeconomy, socio-economic and energy analyses, etc.

11. Green, Closed Loop, Circular Bio-Economy.

Author

Bochtis, Dionysis, Achillas, Charisios, and Bochtis, Dionysis

Subjects
Economic history, ELECTRE III, Sub-Saharan Africa, Sundarbans, VNIR-SWIR, adaptation barrier, aggregation, agricultural sustainability, agriculture, ammonia loss, artificial neural networks, bioeconomy, biofuels, biogas, by-products, carbon sequestration, circular economy, climate change adaptation, control measures, corn markets, coronavirus, decision support, demand forecasting, developing world, energy, food security, forestry, fuzzy cognitive maps, indicators, investments' sustainability, irrigation, land application, lignocellulose, limits to adaptation, machine learning, manure management, microalgae, multi-criteria analysis, n/a, natural gas, non-wood forest products, occupational health and safety, ordered weighted averaging, participatory modelling, poverty alleviation, quality of life, reflectance spectroscopy, research program, resilience, review, rice, rural electrification, soil organic matter, soil spectral libraries, spatial difference-in-difference, strategies, survey, sustainability, sustainability assessment, sustainable socio-economic development, systemic design, transformative adaptation, value chains, vulnerability, wine, wood
Abstract

Summary: In recent years, bioeconomy strategies have been implemented and adapted internationally. In the bioeconomy, materials are to a certain extent circular by nature. However, biomaterials may also be used in a rather linear way. Lately, a transition towards a circular economy, a more restorative and regenerative economic model, is being promoted worldwide. A circular economy offers an alternative model aiming at "doing more and better with less". It is based on the idea that circulating matter and energy will diminish the need for new input. Its concept lies in maintaining the value of products, materials, and resources for as long as possible and at the same time minimizing or even eliminating the amount of waste produced. Focused on "closing the loops", a circular economy is a practical solution for promoting entrepreneurial sustainability, economic growth, environmental resilience, and a better quality of life for all. The most efficient way to close resource loops is to find value in the waste. Different modes of resource circulation may be applied, e.g., raw materials, by-products, human resources, logistics, services, waste, energy, or water. To that end, this Special Issue seeks to contribute to the circular bioeconomy agenda through enhanced scientific and multidisciplinary knowledge to boost the performance efficiency of circular business models and support decision-making within the specific field. The Special Issue includes innovative technical developments, reviews, and case studies, all of which are relevant to green, closed-loop, circular bioeconomy.

12. Frontiers and Best Practices in Bio, Circular, and Green Growth and Eco-Innovation.

Author

Sadik-Zada, Elkhan Richard, Gatto, Andrea, and Sadik-Zada, Elkhan Richard

Subjects
Environmental science, engineering & technology, Technology: general issues, Bahrain, COVID-19, EKC, GDP prediction, Guatemala, Keynesian theory, Kuwait, Latin America, Libya, NPO, Pakistan economy, Sino-US trade friction, bibliometrics, bioeconomy, biomass, border carbon tax, carbon pricing policy, circular business model, circular economy, cluster analysis, community concession, consumer experience, consumers, consumption coupons, consumption dimension, deep learning, developing countries, e-commerce platform, eco-innovation, ecological economics, economic development, economic revival measures, economic scale, economic sustainability, electricity trading, energy demand, energy policies, energy policy, energy resources, energy security, entrepreneurship, environmental Kuznets curve, environmental concern, environmental economics and policy, environmental responsibility, export grab effect, family life, feature selection, financial dimension, firm innovation, forest, forest sustainability, free-market environmentalism, fundraising campaigns, garbage sorting, green business, green consumer behavior, green growth, green hydrogen, green hydrogen value chain, green product, green purchasing decisions, healthcare waste management practices, humanitarian response, hydrogen strategy, innovation, innovation diffusion, innovations, inventory optimization, knowledge sharing, low-carbon economy, mass media, minimum-cost maximum-flow, mitigation, neighbourhood, online consumer behaviour, online customer engagement, online purchase intention, open business model, organizational agility, organizational behavior, organizational factors, organizational sustainability, peer-to-peer, production dimension, property rights, public hospitals, purchase probability, rebound effect, renewable energy, renewable energy sources, renewable power, resource management, rural garbage disposal, scaling, scaling innovation, sharing economy, social and economic sustainability, social media, social networking sites, sustainability, sustainable commerce, sustainable consumption, sustainable development, sustainable organizations, systematic literature review, technological dimension, temporal convolutional network, upscaling, urban garbage disposal, willingness
Abstract

Summary: After almost two decades of continuous development in bio, circular, and green economy, the time is ripe for the assessment of the major achievements and challenges that private and public enterprises face today to further enhance these global sustainability concepts. Due to the central role of political incentives for the development and implementation of environmentally friendly and sustainable practices, the present book project focuses on the nexus between public policies, institutions, quality of public sector management, and patterns of interaction between government and private businesses in backing bio, green, and circular economy practices and eco-innovation. In addition, the project also accommodates surveys that elaborate on the differences between the implementation of new organizational forms and scientific innovations in technologically advanced and developing settings.

13. Advanced Technologies for Biomass.

Author

Di Carlo, Andrea, Di Carlo, Andrea, and Savuto, Elisa

Subjects
Physics, Research & information: general, Açaí, Açaí seeds, Aspen Plus ®simulation, BET analysis, Greece, H2-rich syngas, HMF, R.E.S, X-ray diffraction, absorbent hygiene product, acetic acid, adsorption, agricultural by-products, agriculture, anaerobic, autothermal, bio-oil, bioeconomy, biogas, biomass, biomass gasification, biomass pellet, biorefinery, cellulosic fraction, chemical looping, chemometrics, circular economy, components fractionation, corn stover, devolatilization, devolatilization tests, diapers, digestion, disposable masks, distillation, dual bubbling bed gasifier, energy, ethanol treatment, fluidized bed, furfural, gasification, gasoline, hot compressed water, hydrochar, hydrothermal carbonization, hydrothermal process, innovative pilot scale gasifier, kerosene-like fuel, laser-induced breakdown spectroscopy, light kerosene, lignocellulose, livestock, mass production, mixing ratios, pellet evaluation, pilot plant, process analysis, pyrolysis, quality indexes, residual seeds, scanning electron microscopy, solid fuel, tar analysis, thermo-gravimetric analysis, torrefaction, ultrasonic, waste, wastes
Abstract

Summary: The use of biomass and organic waste material as a primary resource for the production of fuels, chemicals, and electric power is of growing significance in light of the environmental issues associated with the use of fossil fuels. For this reason, it is vital that new and more efficient technologies for the conversion of biomass are investigated and developed. Today, various advanced methods can be used for the conversion of biomass. These methods are broadly classified into thermochemical conversion, biochemical conversion, and electrochemical conversion. This book collects papers that consider various aspects of sustainability in the conversion of biomass into valuable products, covering all the technical stages from biomass production to residue management. In particular, it focuses on experimental and simulation studies aiming to investigate new processes and technologies on the industrial, pilot, and bench scales.

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