Kooperativer Bibliotheksverbund

UID:

Format: 1 Online-Ressource (XIII, 293 p. 121 illus., 95 illus. in color).

Edition: 1st ed. 2022

ISBN: 978-981-1952-01-2

Series Statement: Advances in Sustainability Science and Technology

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-981-1952-00-5

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-981-1952-02-9

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-981-1952-03-6

Language: English

DOI: 10.1007/978-981-19-5201-2

URL: Volltext  (URL des Erstveröffentlichers)

URL: Volltext  (URL des Erstveröffentlichers)

URL: lizenzpflichtig

UID:

Format: 1 Online-Ressource (XIV, 310 p. 138 illus., 133 illus. in color).

Edition: 1st ed. 2023

ISBN: 978-981-9969-24-1

Series Statement: Advances in Sustainability Science and Technology

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-981-9969-23-4

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-981-9969-25-8

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-981-9969-26-5

Language: English

DOI: 10.1007/978-981-99-6924-1

URL: Volltext  (URL des Erstveröffentlichers)

UID:

Format: 1 online resource (276 pages)

ISBN: 0-323-91419-5

Series Statement: Additive Manufacturing Materials and Technologies

Content: 3D Printing Technology for Water Treatment Applications provides a state-of-the-art presentation on the application of 3D printing technology in water treatment. The book discusses numerous processes and their scope for improvement through the use of 3D-printing technology, including pollutant separation from water and an overview of the advantages and disadvantages of different 3D printed technology over current technologies. In addition, the future outlook for device development using 3D printing water purification is explored. Finally, sustainability issues relating to 3D printing-based water purification processes are discussed, describing specific technologies such as 3D printed membranes. This book will serve as a vital resource for scientists, engineers and environmental professionals working in water treatment technologies.

Note: Front Cover -- 3D PRINTING TECHNOLOGY FOR WATER TREATMENT APPLICATIONS -- 3D Printing Technology for Water Treatment Applications Additive Manufacturing Materials and Technologies -- Copyright -- Contents -- Contributors -- 1 - An overview of the advances in the 3D printing technology -- 1.1 Introduction -- 1.1.1 Chronicle of 3D printing -- 1.1.1.1 Foundation of 3D printing-the early 1980s -- 1.1.1.2 One step ahead-1990s -- 1.1.1.3 The explosion of 3D technology-2000s -- 1.1.1.4 The revolution-2010 -- 1.1.1.5 COVID-19 and to date -- 1.1.2 Computer-aided design (CAD) -- 1.2 Technology classification for 3D printing -- 1.2.1 Based on material extrusion -- 1.2.2 Based on vat polymerization -- 1.2.3 Based on powder bed fusion -- 1.2.4 Based on material jetting -- 1.2.5 Based on binder jetting -- 1.2.6 Based on sheet lamination -- 1.2.7 Based on direct energy deposition -- 1.2.8 Other types -- 1.2.8.1 3D bioprinting -- 1.2.8.2 Inkjet printing -- 1.3 Materials for 3D printing -- 1.3.1 Metals -- 1.3.2 Polymers -- 1.3.3 Ceramics -- 1.3.4 Composites -- 1.3.5 Smart materials -- 1.3.6 Earth-based materials -- 1.3.7 Novel materials -- 1.3.8 3D printing pen materials -- 1.4 Applications of 3D printing technology -- 1.4.1 Health and dental industry -- 1.4.2 Pharmaceutical industry -- 1.4.3 Engineering -- 1.4.4 Architecture -- 1.4.4.1 Temporary housing -- 1.4.4.2 Housing for the poor -- 1.4.5 Irrigation -- 1.4.6 Education -- 1.4.7 Food industry -- 1.4.8 Aerospace and defense -- 1.5 Limitations of 3D printing -- 1.6 Future and conclusions -- References -- 2 - Fabrication of microchannel for water treatment using 3D printing -- 2.1 General -- 2.2 3D printing of microchannel -- 2.3 Solid modeling -- 2.4 Device design -- 2.4.1 Cuboid structure -- 2.4.2 Cylindrical structure -- 2.4.2.1 Spiraled microchannel -- 2.5 TMA analyzer -- 2.6 Conclusion -- References. , 3 - Recent advances on 3D printing for wastewater treatment and process optimization using artificial intelligence ... -- 3.1 Introduction -- 3.2 Overview and scope -- 3.2.1 Bibliometric and review methods -- 3.2.2 Research trends in wastewater treatment -- 3.3 Principles -- 3.3.1 Membrane separation technology -- 3.3.2 Membrane modules -- 3.4 Current applications -- 3.4.1 3D printing technologies in wastewater treatment -- 3.4.1.1 Ink jet printing -- 3.4.1.2 Powder bed fusion -- 3.4.1.3 Binder jet -- 3.4.1.4 Material extrusion -- 3.4.1.5 Vat photo polymerization -- 3.4.1.6 Sheet lamination -- 3.4.1.7 Direct energy deposition -- 3.5 Application of 3D printing for water treatment using membrane technology -- 3.5.1 Membrane module design -- 3.5.2 Design and fabrication of module spacers -- 3.5.3 Design and fabrication of membranes -- 3.6 Membrane materials and their fabrication methods -- 3.7 Advanced applications of 3D printing for wastewater treatment -- 3.7.1 Ion-exchange membranes -- 3.7.2 Composite membranes -- 3.7.3 Photocatalysis material -- 3.7.4 Capsule/bio-carriers -- 3.7.5 Moving bed biofilm reactors -- 3.7.6 Oil-water separation substrate -- 3.7.7 Solar absorbers -- 3.7.8 Substrates for dye degradation -- 3.7.9 Heavy metal adsorption -- 3.7.10 Micro devices -- 3.8 Optimization and sustainability of 3D printing technology in wastewater treatment -- 3.8.1 Challenges for manufacturing of membranes -- 3.9 Computational intelligent techniques for control and cost optimization of wastewater treatment -- 3.9.1 Artificial intelligence -- 3.9.2 Commonly used artificial intelligence methods -- 3.9.2.1 Machine learning methods -- 3.9.3 Application of intelligent technologies for wastewater treatment -- 3.9.3.1 Conventional modeling versus intelligent models -- 3.9.3.2 Fault detection and diagnosis. , 3.9.3.3 Part quality and process optimization for 3D printing in wastewater treatment using ML -- 3.10 Future prospects and next generation applications of machine learning for wastewater treatment -- 3.11 Summary -- References -- 4 - An overview of water pollutants in present scenario -- 4.1 Introduction -- 4.2 Source of pollutants -- 4.2.1 Point source of pollution -- 4.2.1.1 Sewage wastewater -- 4.2.1.2 Pharmaceutical industry -- 4.2.1.3 Personal care products -- 4.2.1.4 Pesticides -- 4.2.1.5 Oil pollution -- 4.2.1.6 Radioactive pollution -- 4.2.2 Nonpoint source of pollution -- 4.2.2.1 Agriculture -- 4.2.2.2 Transboundary -- 4.3 Emerging pollutants -- 4.4 Water purification technologies -- 4.5 Conclusion -- Acknowledgments -- References -- 5 - A brief overview on advances in water treatment process -- 5.1 Introduction -- 5.2 Suspended solid removal -- 5.2.1 Sedimentation -- 5.2.2 Centrifugation -- 5.2.3 Coagulation/flocculation -- 5.3 Adsorption -- 5.4 Moving bed biofilm reactor (MBBR) -- 5.5 Solar desalination -- 5.5.1 Direct solar desalination-solar still -- 5.5.2 Indirect solar desalination -- 5.5.2.1 Solar humidification-dehumidification -- 5.5.2.2 Solar-powered multistage flash -- 5.5.2.3 Solar powered membrane distillation -- 5.5.2.4 Solar-powered electrodialysis -- 5.6 Advanced oxidation processes -- 5.6.1 Sonolysis -- 5.6.2 Ozone-based advanced oxidation processes -- 5.6.3 Ozonation and UV radiation (O3/UV) -- 5.6.3.1 O3/H2O2 -- 5.6.3.2 O3/homogeneous catalyst -- 5.6.3.3 O3/Heterogeneous catalysts -- 5.6.3.4 Photocatalytic ozonation -- 5.6.3.5 O3/Fenton process -- 5.7 Reverse osmosis -- 5.8 Electrodialysis -- 5.8.1 Basic principle of electrodialysis -- References -- Further reading -- 6 - 3D-Printed membrane for water treatment -- 6.1 Introduction -- 6.2 Water pollutants -- 6.2.1 Pathogens -- 6.2.2 Macroscopic pollutants. , 6.2.3 Inorganic compounds -- 6.2.4 Organic materials -- 6.3 Membranes for wastewater treatment -- 6.4 Wastewater treatment processes -- 6.4.1 Pressure-driven processes -- 6.4.2 Forward osmosis -- 6.5 Membrane modules and selection -- 6.6 3D printing technology (additive manufacturing) -- 6.7 3D printed materials for desalination and membrane separation -- 6.8 Membrane separation -- 6.9 Membranes for filtration -- 6.10 Capsules or biocarriers for wastewater -- 6.11 Substrates for oil-water separation -- 6.12 Dye degeneration in water treatment -- 6.13 Use of graphene aerogels in water filtration -- 6.14 Use of ceramics in water treatment -- 6.15 Challenges of 3D printing -- 6.15.1 Resolution/accuracy -- 6.15.2 Limited materials -- 6.15.3 Poor scalability/slow process -- 6.15.4 Budget -- 6.16 The outlook for future -- 6.16.1 Combination of conventional methods with additive methods -- 6.16.2 3D printing+electrospinning/surface coatings -- 6.16.3 4D printing -- 6.17 Conclusions -- References -- Further reading -- 7 - Application of nanotechnology in water and wastewater treatment and the vast vision for the future -- 7.1 Introduction -- 7.2 The vision of this study -- 7.3 The need and the rationale of this study -- 7.4 The scientific doctrine in the field of nanomaterials and engineered nanomaterials and the need of sustainability -- 7.5 What exactly do we mean when we say nanoparticles and designed nanomaterials? -- 7.6 Environmental sustainability, scientific progress, and a broad vision for the future -- 7.7 Recent scientific advances in environmental preservation, as well as a visionary road forward -- 7.8 Recent scientific advances in the application of nanotechnology in water and wastewater treatment -- 7.9 Recent scientific advancements in the application of environmental sustainability in human society and the road ahead. , 7.10 3D printing, device development, and water treatment applications -- 7.11 Heavy metal and arsenic groundwater remediation, the application of nanotechnology and the visionary future -- 7.12 Future scientific recommendations and future flow of scientific ideas -- 7.13 Conclusion, summary, and environmental engineering perspectives -- References -- 8 - 3D printed membranes for oil/water separation -- 8.1 Introduction -- 8.1.1 Additive manufacturing or 3-dimensional printing technology -- 8.1.2 3D printed membrane for oil separation -- 8.1.3 Conclusion and future perspectives -- Acknowledgments -- References -- 9 - Use of 3D printed techniques for organic pollutants removal -- 9.1 Introduction -- 9.2 Organic pollutants: classification and adverse effects -- 9.2.1 Classification of organic pollutants -- 9.2.1.1 Organic pollutants can be further classified into following categories -- 9.2.1.1.1 Quantitative and qualitative pollutants -- 9.2.1.1.1.1 Quantitative pollutants -- 9.2.1.1.1.2 Qualitative pollutants -- 9.2.1.1.2 Primary pollutants and secondary pollutants -- 9.2.1.1.2.1 Primary pollutants -- 9.2.1.1.2.2 Secondary pollutants -- 9.2.1.1.3 Volatile pollutants and semivolatile organic pollutants -- 9.2.1.1.3.1 Volatile organic compounds -- 9.2.1.1.3.2 Semi-volatile organic compounds -- 9.2.1.1.4 Nonpersistent and persistent organic pollutants -- 9.2.1.1.4.1 Nonpersistent pollutants -- 9.2.1.1.4.2 Persistent organic pollutants (POPs) -- Oxygen demanding wastes -- Synthetic organic compounds -- 9.2.1.2 Adverse effect of organic pollutants -- 9.3 Techniques to detect organic pollutants and their removal -- 9.3.1 Separating components of a mixture by extraction or chemical method -- 9.3.2 Test for the functional group -- 9.3.3 Quantitative and qualitative analysis -- 9.3.4 Spectroscopic techniques. , 9.4 3D printed techniques for organic pollutant detection and removal.

Additional Edition: Print version: Pandey, Jitendra Kumar 3D Printing Technology for Water Treatment Applications San Diego : Elsevier,c2022 ISBN 9780323998611

Additional Edition: Print version: ISBN 9780323914192

Language: English

UID:

Format: 1 online resource (243 pages)

Edition: 1st ed. 2024.

ISBN: 979-88-6880-303-1

Content: This book focuses on the utilization of GoldenGate Services (GGS) in conjunction with a microservices architecture on the Oracle cloud (OCI), primarily for data migration and integration across various data sources and targets. The book begins with a practical example of utilizing GGS on a Marketplace VM, progressively advancing to in-depth discussions on implementing GoldenGate as a Service on OCI. The book offers illustrative guides for data replication between RDBMSs (such as Oracle, Postgres, and big data targets such as Kafka). Additionally, it explores monitoring techniques using Enterprise Manager and Grafana dashboards. A comparative analysis is presented between traditional VM-based GoldenGate installations and the OCI service model. Special attention is given to Zero Downtime Migration (ZDM) and leveraging GGS for database migration from on-premises to OCI. Some chapters address multi-cloud replication using OCI GGS and include real-life case studies. By the end of this book you will have gained comprehensive insights into the architectural design of GoldenGate Services and will be adept at replicating data using GGS, enabling you to replicate setups in your own environments. What You Will Learn Set up GoldenGate Services for high availability (HA), disaster recovery (DR), migration of data to cloud, and moving data into the data lake or lakehouse Perform logical migration of data to the cloud using the ZDM tool (ZDM uses GoldenGate internally). Replicate data to big data targets Monitor GGS using Enterprise Manager and Grafana Replicate data in a multi-cloud environment.

Note: Includes index. , Chapter 1:Introduction to Oracle GoldenGate Microservices Architecture -- Chapter 2:Oracle GoldenGate HUB Architecture -- Chapter 3: Setting Up Oracle GoldenGate on the OCI Marketplace -- Chapter 4: Setting Up OCI Oracle GoldenGate Services for RDBMS -- Chapter 5: Setting up OCI Oracle GoldenGate Services for BIGDATA -- Chapter 6: Managing and Monitoring Oracle GoldenGate on OCI -- Chapter 7: Comparing OCI GoldenGate Services with Cloud Marketplace -- Chaptem-8: Migration of Databases with Near Zero Down Time -- Chapter 9: Troubleshooting Oracle GoldenGate on OCI -- Chapter 10: On-premises Database Migration to OCI -- Chapter 11: Replicating Data Across Multi-cloud using OCI GoldenGate -- Chapter 12: Real-world examples of Oracle GoldenGate on OCI.

Additional Edition: ISBN 979-88-6880-302-4

Language: English

DOI: 10.1007/979-8-8688-0303-1

URL: Volltext  (URL des Erstveröffentlichers)

UID:

Format: 1 online resource (750 pages)

Edition: 1st ed. 2024.

ISBN: 979-88-6880-252-2

Content: This book is your one-stop resource on MySQL database installation and server management for administrators. It covers installation, upgrades, monitoring, high availability, disaster recovery, security, and performance and troubleshooting. You will become fluent in MySQL 8.2, the latest version of the highly scalable and robust relational database system. With a hands-on approach, the book offers step-by-step guidance on installing, upgrading, and establishing robust high availability and disaster recovery capabilities for MySQL databases. It also covers high availability with InnoDB and NDB clusters, MySQL routers and enterprise MySQL tools, along with robust security design and performance techniques. Throughout, the authors punctuate concepts with examples taken from their experience with large-scale implementations at companies such as Meta and American Airlines, anchoring this practical guide to MySQL 8.2 administration in the real world. What You Will Learn Understand MySQL architecture and best practices for administration of MySQL server Configure high availability, replication, disaster recovery with InnoDB and NDB engines Back up and restore with MySQL utilities and tools, and configure the database for zero data loss Troubleshoot with steps for real-world critical errors and detailed solutions.

Note: Includes index. , Chapter -1: MySQL Installation and Upgrade -- Chapter-2: MySQL Utilities -- Chapter-3: MySQL Server administration -- Chapter-4: MySQL -- Chapter-5: MySQL High Availability, Replication and Scalability -- Chapter-6: MySQL InnoDB Cluster and Cluster Set -- Chapter-7: MySQL NDB Cluster -- Chapter-8: MySQL Logical Backup -- Chapter-9: MySQL Enterprise Backup and Recovery -- Chapter-10: MySQL Security -- Chapter-11: MySQL Performance Tuning -- Chapter-12: MySQL Enterprise Monitor -- Chapter-13: Monitoring MySQL using Oracle Enterprise Monitor Cloud Control 13c -- Chapter 14: MySQL Troubleshooting -- Summary.

Additional Edition: ISBN 979-88-6880-251-5

Language: English

DOI: 10.1007/979-8-8688-0252-2

URL: Volltext  (URL des Erstveröffentlichers)

UID:

Format: 161 S. , zahlr. Ill. (z. T. farb.) , überw. Ill

ISBN: 3855600295

Uniform Title: Tantra-āsana 〈dt.〉

Note: Literaturverz. S. 142 - 146

Language: German

Subjects: Theology

Author information: Mookerjee, Ajit 1915-1990

UID:

Format: 196 S , zahlr. Ill. , 32 cm

Edition: Limeted ed. of 1000 copies

ISBN: 8187330082

Note: Includes index , Translated from French. - Limited edition of 1000 copies

Language: English

Subjects: Theology

Keywords: Jainismus ; Kosmogonie ; Symbol ; Kunst

Author information: Caillat, Colette 1921-2007

UID:

Format: 146 S. : , zahlr. Ill.

Language: German

Subjects: Theology

Keywords: Tantrismus

Author information: Mookerjee, Ajit, 1915-1990.

UID:

Format: xxvii, 895 Seiten , Diagramme

ISBN: 9780367518264

Additional Edition: Erscheint auch als Online-Ausgabe ISBN 978-1-003-07965-1

Language: English

Subjects: Economics

Keywords: Ökonometrie

URL: Inhaltsverzeichnis

UID:

Format: 1 Online-Ressource (XXXI, 593 p. 408 illus., 334 illus. in color)

Edition: 1st ed. 2022

ISBN: 9789811628184

Series Statement: Lecture Notes in Electrical Engineering 771

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-981-1628-17-7

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-981-1628-19-1

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-981-1628-20-7

Language: English

DOI: 10.1007/978-981-16-2818-4

URL: Volltext  (URL des Erstveröffentlichers)