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| biohydrometallurgy: Biohydrometallurgy Giovanni Rossi, 1990 |
| biohydrometallurgy: Biohydrometallurgy 2009 Edgardo R. Donati, M. Viera, Eduardo L. Tavani, Maria Alejandra Giaveno, Teresa L. Lavalle, Patricia A. Chiacchiarini, 2009-05-19 a meeting point between Microbial Ecology, Metal Recovery Processes and Environmental Remediation Selected, peer reviewed papers from the 18th IBS (IBS 2009), 13-17 September 2009, Bariloche, Argentina |
| biohydrometallurgy: Recent Advances in Hydro- and Biohydrometallurgy Kostas a Komnitsas, 2019-07-30 This book is a printed edition of the Special Issue Recent Advances in Hydro- and Biohydrometallurgy that was published in Minerals |
| biohydrometallurgy: Biohydrometallurgy of Chalcopyrite Hongbo Zhao, Congren Yang, Xian Zhang, Yisheng Zhang, Guanzhou Qiu, 2021-07-29 Bioleaching of chalcopyrite is always a challenge and research hotspot. The low copper extraction and dissolution kinetics restricted the industrial application of chalcopyrite bioleaching. To solve this problem, the dissolution process and passivation mechanism of chalcopyrite in bioleaching should be first studied, then the rate-limiting steps should be analysed explicitly, and finally the intensifying method can be put forward. Many scholars have made efforts to investigate the dissolution mechanism of chalcopyrite in bioleaching. However, there is no congruence of opinion as yet. Biohydrometallurgy of Chalcopyrite summarizes and discusses the reported research findings. In addition, this book publishes the related results found by the authors' research. Then, the dissolution mechanism of chalcopyrite in bioleaching is interpreted. Finally, the process intensification techniques of chalcopyrite bioleaching are provided and discussed. Hence, this book provides useful reference and guidance in both laboratory research and industrial production. - Interprets the dissolution mechanism of chalcopyrite in bioleaching - Provides feasible technologies for intensifying chalcopyrite bioleaching - Overviews the current situations of chalcopyrite bioleaching - Helps the readers to deeply understand the bioleaching mechanisms of chalcopyrite - Provides topics for future research and potential industrial applications |
| biohydrometallurgy: Biohydrometallurgy: From the Single Cell to the Environment Axel Schippers, Wolfgang Sand, Franz Glombitza, Sabine Willscher, 2007-07-15 Selected, peer reviewed papers from the 17th International Biohydrometallurgy Symposium (IBS 2007), 2-5 September 2007, DECHEMA Gesellschaft für Chemische Technik und Biotechnologie e.V , Frankfurt am Main, Germany |
| biohydrometallurgy: Biohydrometallurgy Joseph Salley, Ronald Glen Lang McCready, Paul L. Wichlacz, 1989 |
| biohydrometallurgy: Biohydrometallurgy: Biosorption and bioremediation V. S. T. Ciminelli, 2001 |
| biohydrometallurgy: Biohydrometallurgy Paul R. Norris, Don P. Kelly, 1988 |
| biohydrometallurgy: Biohydrometallurgy: Bioleaching, microbiology, and molecular biology V. S. T. Ciminelli, Oswaldo Garcia, Mônica C. Teixeira, Regina Pinto Carvalho, Patrícia F. Pimentel, 2001 Presenting the highlights of an international forum for scientific and engineering experts and students addressing the progress and applications of Biohydrometallurgy as it enters the new millennium. |
| biohydrometallurgy: Environmental Technologies to Treat Sulfur Pollution Piet Lens, L. W. Hulshoff Pol, 2000-01-01 Environmental Technologies to Treat Sulfur Pollution: Principles and Engineering provides a definitive and detailed discussion of state-of-the-art environmental technologies to treat pollution by sulfurous compounds of wastewater, off-gases, solid waste, soils and sediments. Special attention is given to novel bioremediation techniques that have been developed over the last 10 years. Information density is unique owing to the many figures and graphs (150), tables (over 80) and over 1500 cited literature references. A detailed subject index helps the reader to find their way through the different technological applications, making it the perfect reference work for professionals and consultants dealing with sulfur-related environmental (bio)-technologies. Contents Part I - The sulfur cycle Part II - Technologies to Desulfurise Resources Part III - Treatment of Waters Polluted by Sulfurous Compounds Part IV - Treatment of Gases Polluted by Sulfurous Compounds Part V - Treatment of Soils and Sediments Polluted by Sulfurous Compounds Part VI - Other Applications of Sulfur Cycle: Bioconversions in Environmental Engineering Part VII - Problems Related to Sulfur Cycle: Bioconversions |
| biohydrometallurgy: Biotechnology for the Treatment of Hazardous Waste Daphne L. Stoner, 2017-11-22 The development of biologically based processes for the treatment of hazardous inorganic and organic wastes is a multi-disciplinary effort requiring the consideration of a number of biological, chemical, and physical parameters, as well as the effective teaming of biologists, chemists, engineers, and regulatory agencies. This new text/reference bridges the disciplines in a unique way, allowing an exchange of fundamental information to take place. The book begins with a description of the biological transformations of inorganic and organic compounds and a review of strategies that may be used for the treatment of hazardous wastes. It continues with a discussion of the physiological and engineering factors that must be considered for successful process development and concludes with a discussion of the regulations that have influenced biological waste treatment and environmental remediation. |
| biohydrometallurgy: The ECPH Encyclopedia of Mining and Metallurgy Kuangdi Xu, 2024-07-06 This encyclopedia volume comprehensively reflects the basic knowledge and latest research results in the field of mining and metallurgy technology, as well as the latest characteristics of the development in this field. In this reference book, the knowledge system, basic concepts, basic theories, as well as important figures, representative works and institutions of these two engineering categories are well organized in encyclopedic entries. Among them, the content on mining engineering mainly includes mining and mineral processing theory, mining and mineral processing methods, as well as the safety and environmental knowledge involved in mining and mineral processing. In the metallurgical engineering field, it mainly covers metallurgy and metallurgy industry, ferrous metallurgy, non-ferrous metallurgy, powder metallurgy, plastic working of metal, coking chemicals, refractories, energy for metallurgy, physical chemistry of metallurgical process, etc. This is thefirst volume of a series of encyclopedias co-published by Encyclopedia of China Publishing House (ECPH), Beijing and Springer Nature. |
| biohydrometallurgy: Geobiotechnology I Axel Schippers, Franz Glombitza, Wolfgang Sand, 2014-08-25 This book review series presents current trends in modern biotechnology. The aim is to cover all aspects of this interdisciplinary technology where knowledge, methods and expertise are required from chemistry, biochemistry, microbiology, genetics, chemical engineering and computer science. Volumes are organized topically and provide a comprehensive discussion of developments in the respective field over the past 3-5 years. The series also discusses new discoveries and applications. Special volumes are dedicated to selected topics which focus on new biotechnological products and new processes for their synthesis and purification. In general, special volumes are edited by well-known guest editors. The series editor and publisher will however always be pleased to receive suggestions and supplementary information. Manuscripts are accepted in English. |
| biohydrometallurgy: Biohydrometallurgical Recycling of Metals from Industrial Wastes Hong Hocheng, Mital Chakankar, Umesh Jadhav, 2017-09-11 Although many available metal recycling methods are simple and fast, they are also expensive and cause environmental pollution. Biohydrometallurgical processing of metals offers an alternative to overcome these issues, as the use of biological means not only helps to conserve dwindling ore resources but also fulfills the need for the unambiguous need to extract metals in nonpolluting, low-energy, and low-cost way. This book covers biohydrometallurgy and its application in the recovery of metals from secondary sources like wastes. It aims to provide readers with a comprehensive overview of different wastes for metal recovery and biological treatment methods that are both environmentally friendly and economically viable. |
| biohydrometallurgy: Microbial Processing of Metal Sulfides Edgardo R. Donati, Wolfgang Sand, 2007-05-11 The application of microbiological methods to the extraction of metals from minerals is supported by several bioleaching and biooxidation processes operating in different sites over the world. This book details the basic aspects of the process with special emphasis on recent contributions regarding the chemical and microbial aspects of the bioleaching process and the use of microorganisms in the treatment of complex ores and concentrates. |
| biohydrometallurgy: Biohydrometallurgical Recycling of Metals from Industrial Wastes Hong Hocheng, Mital Chakankar, Umesh Jadhav, Swati Gurme, 2025-03-13 Although many available metal recycling methods are simple and fast, they are also expensive and cause environmental pollution. Biohydrometallurgical processing of metals offers an alternative to overcome these issues, as the use of biological means not only helps to conserve dwindling ore resources but also fulfills the unambiguous need to extract metals in nonpolluting, low-energy, and low-cost way. This book covers biohydrometallurgy and its application in the recovery of metals from secondary sources like wastes. Fully updated for a new edition, it provides readers with a comprehensive overview of different wastes for metal recovery and biological treatment methods that are both environmentally friendly and economically viable. • Offers a detailed explanation about generation of different metals containing industrial waste. • Explains traditional and new biological methods of recycling. • Reflects research advances across different industrial waste sources including electric vehicle batteries and LCDs from computers and other devices. • Focuses on each waste type and explores in detail the biohydrometallurgical recovery of metals from that waste. • Discusses fundamental microbial studies in bioleaching and updates about the use of emerging technologies and integrated techniques with different methods in combination for metal recovery. • Features a new chapter on techniques for metal extraction from bioleachate. This book serves as an essential resource for researchers and professional engineers working in chemical and environmental engineering and biotechnology. |
| biohydrometallurgy: Integration of Scientific and Industrial Knowledge on Biohydrometallurgy Nicolas Guiliani, Cecilia Demergasso, Raquel Quatrini, Francisco Remonsellez, Carol Davis-Belmar, Gloria J. Levicán, Pilar Parada, Carlos Barahona, Rebekah Zale, 2013-10-07 Selected, peer reviewed papers from the 20th International Biohydrometallurgy Symposium (IBS2013), October 8-11, 2013, Antofagasta, Chile |
| biohydrometallurgy: Biohydrometallurgical Processes Satarupa Dey, 2023-12-13 Extensive industrialization has led to an increased release of toxic metals into the soil and air. Industrial waste can include mine overburden, bauxite residue, and E waste, and these can serve as a source of valuable recoverable metals. There are relatively simple methods to recycle these wastes, but they require additional chemicals, are expensive, and generate secondary waste that causes environmental pollution. Biohydrometallurgical processing is a cost-effective and ecofriendly alternative where biological processes help conserve dwindling ore resources and extract metals in a nonpolluting way. Microbes can be used in metal extraction from primary ores, waste minerals, and industrial and mining wastes. Biohydrometallurgical Processes: Metal Recovery and Remediation serves as a useful guide for microbiologists, biotechnologists, and various industrialists dealing with mining, metallurgy, chemical engineering, and environmental sciences. Features: Examines advances in biohydrometallurgy, biomineralization, and bioleaching techniques Discusses the importance of bacteria in biohydrometallurgical processes and microbial interventions for waste cleanup and upgradation of minerals Presents the latest techniques for biosynthesis related to different metals, along with recent developments in alternative procedures using extremophiles and leaching bacteria |
| biohydrometallurgy: SME Mineral Processing and Extractive Metallurgy Handbook Courtney A. Young, 2019-02-01 This landmark publication distills the body of knowledge that characterizes mineral processing and extractive metallurgy as disciplinary fields. It will inspire and inform current and future generations of minerals and metallurgy professionals. Mineral processing and extractive metallurgy are atypical disciplines, requiring a combination of knowledge, experience, and art. Investing in this trove of valuable information is a must for all those involved in the industry—students, engineers, mill managers, and operators. More than 192 internationally recognized experts have contributed to the handbook’s 128 thought-provoking chapters that examine nearly every aspect of mineral processing and extractive metallurgy. This inclusive reference addresses the magnitude of traditional industry topics and also addresses the new technologies and important cultural and social issues that are important today. Contents Mineral Characterization and AnalysisManagement and ReportingComminutionClassification and WashingTransport and StoragePhysical SeparationsFlotationSolid and Liquid SeparationDisposalHydrometallurgyPyrometallurgyProcessing of Selected Metals, Minerals, and Materials |
| biohydrometallurgy: Copper Overview - From Historical Aspects to Applications Daniel Fernández González, 2024-08-28 Copper is a metal that currently is a key element in the field of electricity, although it has significant importance in other fields, particularly when it is alloyed, due to its mechanical properties and corrosion resistance. Moreover, copper and some of its compounds are gaining importance in other topics due to their antibacterial properties. Nevertheless, this metal, which was one of the first used by humans, has been crucial for their development, and for this reason, two periods of history are called the Copper Age and Bronze Age due to the importance of Cu and Cu-Sn, respectively, in the fabrication of utensils, weapons, and ornamental objects. From that moment, the utilization of copper has significantly grown to an actual production approaching 30 Mt, of which around 80% corresponds to the mine production while the rest comes from recycling. The reutilization of copper (or the exploitation of secondary resources) is a topic of increasing importance due to both the depletion of high-grade deposits and the importance of environmental aspects in metallurgical industries. This book provides a collection of research works and reviews that emphasize some of the above-reported topics. |
| biohydrometallurgy: Bioconversion of Waste Materials to Industrial Products A.M. Martin, 2012-12-06 By covering both the general principles of bioconversion and the specific characteristics of the main groups of waste materials amenable to bioconversion methods, this new book provides the chemical, biochemical, agrochemical and process engineer with clear guidance on the use of these methods in devising a solution to the problem of industrial waste products. |
| biohydrometallurgy: BIOTECHNOLOGY - Volume X Horst W. Doelle, J. Stefan Rokem, Marin Berovic, 2009-11-16 This Encyclopedia of Biotechnology is a component of the global Encyclopedia of Life Support Systems (EOLSS), which is an integrated compendium of twenty one Encyclopedias. Biotechnology draws on the pure biological sciences (genetics, animal cell culture, molecular biology, microbiology, biochemistry, embryology, cell biology) and in many instances is also dependent on knowledge and methods from outside the sphere of biology (chemical engineering, bioprocess engineering, information technology, biorobotics). This 15-volume set contains several chapters, each of size 5000-30000 words, with perspectives, applications and extensive illustrations. It carries state-of-the-art knowledge in the field and is aimed, by virtue of the several applications, at the following five major target audiences: University and College Students, Educators, Professional Practitioners, Research Personnel and Policy Analysts, Managers, and Decision Makers and NGOs. |
| biohydrometallurgy: Green and Sustainable Approaches Using Wastes for the Production of Multifunctional Nanomaterials Abhishek Kumar Bhardwaj, Kuldip Dwivedi, Mika Sillanpää, Arun Lal Srivastav, 2024-01-19 Green and Sustainable Approaches Using Wastes for the Production of Multifunctional Nanomaterials focuses on the examination of green synthesis utilizing green waste materials derived from home and industrial applications. This book also examines the current state of material generations, future problems and their industrial constraints, and the synthesis of NMs for various applications such as medicinal, agriculture, environmental, food and beverage storage, and so on. The book includes the most recent practical and theoretical aspects of the use of waste materials released in the fabrication of various types of valuable nanomaterials, such as metal, metal oxide, polymeric, and graphene, among others. This is a relatively new concept in waste utilization, and green synthesis is a viable resource in making NPs. This book will also be valuable for waste management professionals who need proper disposal techniques for by-products. - Provides various types of waste management helps to develop innovative ideas - Discusses waste to valuable wealth, waste resources management, approaches to focus sustainable development, pollution reduction, and alternative options for smooth recovery of resources - Contains advanced information about green nanotechnology |
| biohydrometallurgy: 22nd International Biohydrometallurgy Symposium Sabrina Hedrich, Kathrin Rübberdt, Franz Glombitza, Wolfgang Sand, Axel Schippers, Mario Vera Véliz, Sabine Willscher, 2017-08-21 Selected, peer reviewed papers from the Proceedings of the 22nd International Biohydrometallurgy Symposium, September 24-27, 2017, Freiberg, Germany |
| biohydrometallurgy: Environmental Chemistry of Arsenic Jr, William T. Frankenberger, 2001-12-04 With contributions from world-renowned experts in the field, this book explores developments in the transport kinetics, seasonal cycling, accumulation, geochemistry, transformation, and toxicology of arsenic. It details advances in the prevention and control of arsenic and arsenic compounds in the air, soil, and water and offers analytical methods for the detection and study of arsenic in the environment and human body. Providing bioremediation techniques for effective treatment of contaminated water supplies, the book discusses factors that influence the removal of arsenic from water as well as diurnal and seasonal variations in the arsenic concentration of surface water supplies. |
| biohydrometallurgy: Management of Electronic Waste Anshu Priya, 2023-12-13 MANAGEMENT OF ELECTRONIC WASTE Holistic view of the current and future trends in electronic waste management, focusing on recycling, technologies, and regulations Management of Electronic Waste delivers a complete overview of all aspects related to the toxicity characterization of electronic wastes, along with other important topics including resource recovery, recycling strategies, biotechnological advancements, and current perspectives on waste generation and management. The book presents hazards associated with conventional recycling methods and highlights environmentally compatible economic approaches for resource recovery, along with eco-friendly strategies for management of electronic wastes. The high metallic content, heterogeneous and composite nature of e-wastes make them a rich secondary reservoir of metals. The book explores the valuable potential of e-waste and highlights the eco-friendly, sustainable technologies and recycling strategies for the profitable and effective conversion of waste to wealth. Written by a highly qualified and internationally renowned author, Management of Electronic Waste covers sample topics such as: Rise of e-waste generation paired with rising economies and mounting demand for electrical and electronic devices, with a country-by-country breakdown Status of e-waste management and recycling efforts around the world, along with key processes that drive e-waste recycling Macroeconomic trends between global demand and supply for metal resources and the transition of linear to circular economy Bioleaching, an economic and green approach for recovery of metals, from e-waste and other low grade metal repositories Different metallurgical approaches for extraction and recovery of resources from e-waste and their pros and cons Filling a gap on the understudied biotechnological recycling techniques and methods for mitigating environmental pollution caused by electronic waste, Management of Electronic Waste serves as an excellent guide on the subject for electronic waste producers, consumers, recycling industries, policy and law makers, academicians, and researchers. |
| biohydrometallurgy: Sustainable Management of Electronic Waste Abhishek Kumar, Pramod Singh Rathore, Ashutosh Kumar Dubey, Arun Lal Srivastav, Vishal Dutt, T. Ananth Kumar, 2024-02-02 SUSTAINABLE MANAGEMENT OF ELECTRONIC WASTE Written and edited by a group of industry professionals, this new volume provides cutting-edge insights into how the sustainability of managing electronic waste can be achieved, for engineers, scientists, and students. As a result of the rapid advancement of technology and the globalization of the economy, waste electrical and electronic equipment (WEEE) management has become increasingly important. Manufacturers are especially concerned about the proper disposal of their waste, and researchers need to identify the obstacles and enablers that stand in the way of implementing a long-term WEEE management system in order to develop a long-term WEEE management system. Further, the literature did not adequately capture the perspectives of multiple stakeholders while also identifying the enablers required for the development of sustainable WEEE management policies, which was particularly important in developing countries. This volume fills a gap in the literature by considering the perspectives of multiple stakeholders to identify enablers of sustainable WEEE management in emerging economies which was previously unexplored. This book focuses on the most recent technological advancements for the twenty-first century, emphasizing the synergies that exist between computer science, bioinformatics, and other sciences. The research and development of artificial intelligence, machine learning, blockchain technologies, quantum computing with cryptography, nanotechnology, sensors based on biotechnology, Internet of Things devices, nature-inspired algorithms, computer vision techniques, computational biology, and other topics are covered in this book, along with their applications in the fields of science, engineering, physical science, and economics. Modern environmental techniques are among the most innovative innovations emerging as a result of the insatiable demand for health standards in the modern world. |
| biohydrometallurgy: Bioextraction and Biodeterioration of Metals Christine C. Gaylarde, 1995-05-11 The research in metal-microbe interactions is reviewed, for researchers and engineers. |
| biohydrometallurgy: Catalysis for Clean Energy and Environmental Sustainability K. K. Pant, Sanjay Kumar Gupta, Ejaz Ahmad, 2021-04-11 This book is part of a two-volume work that offers a unique blend of information on realistic evaluations of catalyst-based synthesis processes using green chemistry principles and the environmental sustainability applications of such processes for biomass conversion, refining, and petrochemical production. The volumes provide a comprehensive resource of state-of-the-art technologies and green chemistry methodologies from researchers, academics, and chemical and manufacturing industrial scientists. The work will be of interest to professors, researchers, and practitioners in clean energy catalysis, green chemistry, chemical engineering and manufacturing, and environmental sustainability. This volume focuses on the potentials, recent advances, and future prospects of catalysis for biomass conversion and value-added chemicals production via green catalytic routes. Readers are presented with a mechanistic framework assessing the development of product selective catalytic processes for biomass and biomass-derived feedstock conversion. The book offers a unique combination of contributions from experts working on both lab-scale and industrial catalytic processes and provides insight into the use of various catalytic materials (e.g., mineral acids, heteropolyacid, metal catalysts, zeolites, metal oxides) for clean energy production and environmental sustainability. |
| biohydrometallurgy: Hydrometallurgy ’94 Institution of Mining & Metallurgy, 2012-12-06 Hydrometallurgy '94 contains the 78 papers that were presented at the international symposium organized by the Institution of Mining and Metallurgy and the Society of Chemical Industry and held in Cambridge, England, in July 1994. In the papers specific attention is paid to the concept of sustainable development and the associated ideas of cleaner technology, recycling and waste minimization that have particular relevance to the extractiona nd processing of metals and other mineral products. The papers, by authors from 30 contries, are grouped under the headings: Hydrometallurgy and Sustainable Development; Materials Production and the Environment; Fundamentals; Leaching; Bioprocessing; Gold Solution Purification; Effluent Treatment; Processes; and Recycling. |
| biohydrometallurgy: 1st International Conference on Advances in Mineral Resources Management and Environmental Geotechnology Zacharias Agioutantis, 2004 |
| biohydrometallurgy: Rare Metal Technology 2022 Takanari Ouchi, Gisele Azimi, Kerstin Forsberg, Hojong Kim, Shafiq Alam, Neale R. Neelameggham, Alafara Abdullahi Baba, Hong Peng, 2022-02-02 This collection presents papers from a symposium on extraction of rare metals from primary and secondary materials and residues as well as rare extraction processing techniques used in metal production. Authors cover the extraction of less common or minor metals including elements such as antimony, bismuth, barium, beryllium, boron, calcium, chromium, gallium, germanium, hafnium, indium, manganese, molybdenum, platinum group metals, rare earth metals, rhenium, scandium, selenium, sodium, strontium, tantalum, tellurium, and tungsten. Contributions also discuss rare metals of low-tonnage sales compared to high-tonnage metals (iron, copper, nickel, lead, tin, zinc, or light metals such as aluminum, magnesium, or titanium and electronic metalloid silicon). Authors also cover biometallurgy, hydrometallurgy, and electrometallurgy while novel high-temperature processes such as microwave heating, solar-thermal reaction synthesis, and cold crucible synthesis of rare metals are addressed. Also included in this collection is the design of extraction equipment used in these processes from suppliers as well as laboratory and pilot plant studies. |
| biohydrometallurgy: Biotechnology of Metals K.A. Natarajan, 2018-06-13 Biotechnology of Metals: Principles, Recovery Methods and Environmental Concerns deals with all aspects of metal biotechnology in different areas, such as biogenesis, biomaterials, biomimetic strategies, biohydrometallurgy, mineral biobeneficiation, electrobioleaching, microbial corrosion, human implants, concrete biocorrosion, microbiology of environment pollution, and bioremediation. As the technology of this interdisciplinary science has diversified over the last five years, this book provides a valuable source for scientists and students in a number of disciplines, including geology, chemistry, metallurgy, microbiology, chemical engineering, environment, civil engineering, and biomedical engineering. - Offers comprehensive coverage of an interdisciplinary subject - Outlines the role of microbiology and biotechnology in mining, metallurgy, waste disposal and environmental control - Covers new topics, such as biogenesis, biomaterials processing, the role of micro-organisms in causing corrosion, and much more - Presents scientifically illustrated experimental research methods in metals biotechnology |
| biohydrometallurgy: Applications of Environmental Biotechnology for Global Sustainability Dr. Korla Swapnavahini, Dr. P. Mahalakshmi, Dr. S. Carmel Punitha, Dr. D. Jayarajan, and Dr. Sunanda Shashikant Aswale, 2023-02-03 Editors: Dr. Korla Swapnavahini, Dr. P. Mahalakshmi, Dr. S. Carmel Punitha, Dr. D. Jayarajan, and Dr. Sunanda Shashikant Aswale All rights reserved. No part of this publication may be reproduced or transmitted, in any form or by any means, without permission. Any person who does any unauthorized act in relation to this publication may be liable for criminal prosecution and civil claims for damages. First Published, 2023 ISBN: 978-625-8284-30-0 (Turkey) Yayımcı Hukuki Adı (Publisher Legal Name) GLOBAL ACADEMY YAYINCILIK VE DANIŞMANLIK HİZMETLERİ SANAYİ TİCARET LİMİTED ŞİRKETİ Published by: GLOBAL ACADEMY GLOBAL ACADEMY YAYINCILIK VE DANIŞMANLIK HİZMETLERİ SANAYİ TİCARET LİMİTED ŞİRKETİ E-mail: globalyayinlari@gmail.com Website: https://www.globalacademy.com.tr |
| biohydrometallurgy: Nano Technology for Battery Recycling, Remanufacturing, and Reusing Siamak Farhad, Ram K. Gupta, Ghulam Yasin, Tuan Anh Nguyen, 2022-04-28 Nanotechnology for Battery Recycling, Remanufacturing, and Reusing explores how nanotechnology is currently being used in battery recycling, remanufacturing and reusing technologies to make them economically and environmentally feasible. The book shows how nanotechnology can be used to enhance and improve battery recycling, remanufacturing and reusing technologies, covering the fundamentals of battery recycling, remanufacturing and reusing technologies, the role of nanotechnology, the separation, regeneration and reuse of nanomaterials from battery waste, nano-enabled approaches for battery recycling, and nano-enabled approaches for battery remanufacturing and reusing. This book will help researchers and engineers to better understand the role of nanotechnology in the field of battery recycling, remanufacturing and reusing. It will be an important reference source for materials scientists and engineers who would like to learn more about how nanotechnology is being used to create new battery recycling processes. - Outlines practical and cost-efficient processes for recycling and reusing batteries - Highlights the different types of nanomaterials used in battery recycling processes - Assesses major challenges with integrating nanotechnology into battery manufacturing processes on an industrial scale |
| biohydrometallurgy: New Horizons in Biotechnology S. Roussos, C.R. Soccol, Ashok Pandey, C. Augur, 2013-06-29 The practice of biotechnology, though different in style, scale and substance in globalizing science for development involves all countries. Investment in biotechnology in the industrialised, the developing, and the least developed countries, is now amongst the widely accepted avenues being used for economie development. The simple utilization of kefir technology, the detoxification of injurious chemical pesticides e.g. parathion, the genetic tailoring of new crops, and the production of a first of a kind of biopharmaceuticals illustrate the global scope and content of biotechnology research endeavour and effort. In the developing and least developed nations, and in which the 9 most populous countries· are encountered, problems concerning management of the environment, food security, conservation of human health resources and capacity building are important factors that influence the path to sustainable development. Long-term use of biotechnology in the agricultural, food, energy and health sectors is expected to yield a windfall of economic, environmental and social benefits. Already the prototypes of new medicines and of prescription fruit vaccines are available. Gene based agriculture and medieine is increasingly being adopted and accepted. Emerging trends and practices are reflected in the designing of more efficient bioprocesses, and in new research in enzyme and fermentation technology, in the bioconversion of agro industrial residues into bio-utility products, in animal healthcare, and in the bioremediation and medical biotechnologies. Indeed, with each new day, new horizons in biotechnology beckon. |
| biohydrometallurgy: Biomining Douglas E. Rawlings, D. Barrie Johnson, 2006-12-18 Biomining uses microorganisms to recover metals, in particular copper and gold, from ores and concentrates. This book takes a strong applied approach to the study of biomining. It describes emerging and established industrial processes, as well as the underlying theory of the process, along with the biology of the microorganisms involved. Chapters have been contributed by experts from leading biomining companies, consultants and internationally recognized researchers and academics. |
| biohydrometallurgy: Advances in Applied Microbiology Allen I. Laskin, Geoffrey M. Gadd, 2001-10-08 Advances in Applied Microbiology offers intensive reviews of the latest techniques and discoveries in this rapidly moving field. The editors are recognized experts and the format is comprehensive and instructive. |
| biohydrometallurgy: Microbial Technology for Sustainable E-waste Management Prasenjit Debbarma, Saurabh Kumar, Deep Chandra Suyal, Ravindra Soni, 2023-03-01 This book, besides discussing challenges and opportunities, will reveal the microbe-metal interactions and strategies for e-waste remediation in different ecosystems. It will unveil the recent biotechnological advancement and microbiological approach to sustainable biorecycling of e-waste such as bioleaching for heavy metal extraction, valorization of precious metal, biodegradation of e-plastic, the role of the diverse microbial community in e-waste remediation, genetically engineered microbes for e-waste management, the importance of microbial exopolysaccharides in metal biosorption, next-generation technologies, omics-based technologies etc. It also holds the promise to discuss the conservation, utilization and cataloging indigenous microbes in e-waste-polluted niches and promising hybrid technology for sustainable e-waste management. Revolution in the area of information technology and communication is constantly evolving due to scientific research and development. Concurrently, the production of new electrical and electronic equipment also thus uplifting in this era of revolution. These technological advancements certainly have problematic consequences which is the rise of huge amounts of electronic obsoletes or electronic waste (e-waste). Improper management of both hazardous and nonhazardous substances of e-waste led to a major concern in our digital society and environment. Therefore, a sustainable approach including microbial candidates to tackle e-waste is the need of the hour. Nevertheless, the continuous demand for new-generation gadgets and electronics set this high-tech evolution to a new frontier in the last few years. With this continuing trend of technological development, e-waste is expanding exponentially worldwide. In the year of 2019, the worldwide generation of e-waste was approximately 53.6 Mt, of which only about 17.4% of e-waste was collected and recycled, and the other 82.6% was not even documented. E-waste contains various heterogeneous waste complexes such as metals (60%), blends of many polymers (30%) and halogenated compounds, radioactive elements and other pollutants (10%), respectively. The sustainable, efficient, and economic management of e-waste is thus, a challenging task today and in the coming decades. Conventional techniques such as the use of chemicals, incineration and informal ways of e-waste dismantling trigger serious health risks and contamination to the human population and environment, respectively due to the liberation of toxic and hazardous substances from the waste. In this context, bio-candidates especially microorganisms could be sharp-edged biological recycling tools to manage e-waste sustainably. As microbes are omnipresent and diverse in their physiology and functional aspects, they offer a wide range of bioremediation. |
| biohydrometallurgy: Sorption and Biosorption Bohumil Volesky, 2003 |
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