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  • 1
    Online Resource
    Online Resource
    Membrane Technology Enhancement for Environmental Protection and Sustainable Industrial Growth (2021)
    Cham : Springer International Publishing | Cham : Imprint: Springer
    Details Availability
    Keywords: Environmental engineering. ; Biotechnology. ; Polymers  . ; Energy efficiency. ; Water pollution. ; Air pollution.
    Description / Table of Contents: Introduction -- Membrane definition, characterization and simulations -- High performance membrane for natural gas sweetening plants -- Hydrocarbon separation and removal using membranes -- Hydrodynamic condition in a pressure-driven membrane system and its impact on membrane fouling -- Hydrodynamic enhancement within dynamic filtration for resource recycling -- Treatment of concentrated saline effluent by membrane distillation and pervaporation -- Advanced membrane technology for textile wastewater treatment -- Photocatalytic membrane for micro-polluted wastewater treatment -- Recent trends in membrane processes for water purification of brackish water -- Ageing and degradation of ion-exchange membranes -- Current strategies for the design of antifouling ion-exchange membranes -- Membrane applications in agriculture and food industry -- Membrane applications in fuel cells -- Energy optimization in membrane desalination -- Membrane-based energy recovery ventilators -- Membrane technology: Recent patents and industrial products.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(V, 195 p. 135 illus., 108 illus. in color.)
    Edition: 1st ed. 2021.
    ISBN: 9783030412951
    Series Statement: Advances in Science, Technology & Innovation, IEREK Interdisciplinary Series for Sustainable Development
    URL: https://doi.org/10.1007/978-3-030-41295-1
    DOI: 10.1007/978-3-030-41295-1
    Language: English
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  • 2
    Online Resource
    Online Resource
    Membranes for Environmental Applications (2020)
    Cham : Springer International Publishing | Cham : Imprint: Springer
    Details Availability
    Keywords: Environmental chemistry. ; Climate change. ; Water pollution. ; Environmental sciences. ; Polymers  .
    Description / Table of Contents: Preface -- Chapter 01 – The Carbonic Anhydrase Promoted Carbon Dioxide Capture -- Chapter 02 – Carbon capture via mixed-matrix membranes containing nanomaterials and metal-organic frameworks -- Chapter 03 – Biogas as a Renewable Energy Source. Focusing on Principles and Recent Advances of Membrane-Based Technologies for Biogas Upgrading -- Chapter 04 – Developments of carbon-based membrane materials for water treatment -- Chapter 05 – Removal of Pharmaceuticals and personal care products in aquatic environment by membrane technology -- Chapter 06 – Hydrodynamic Enhancement by Dynamic Filtration for Environmental Applications -- Chapter 07 – Membrane Preparation for Unconventional Desalination by Membrane Distillation and Pervaporation -- Chapter 08 – Role and characterization of nano-based membranes for environmental applications -- Chapter 09 – Membrane technologies for sustainable and eco-friendly microbial energy production -- Chapter 10 – Membrane Reactors for Renewable Fuel Production and Their Environmental Benefits -- Chapter 11 – Waste Management and Conversion to Pure Hydrogen by Application of Membrane Reactor Technology -- Chapter 12 – Advances in Pd membranes for hydrogen production from residual biomass and wastes.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(XVII, 520 p. 123 illus., 99 illus. in color.)
    Edition: 1st ed. 2020.
    ISBN: 9783030339784
    Series Statement: Environmental Chemistry for a Sustainable World 42
    URL: https://doi.org/10.1007/978-3-030-33978-4
    URL: https://swbplus.bsz-bw.de/bsz169152610xcov.jpg
    DOI: 10.1007/978-3-030-33978-4
    Language: English
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  • 3
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    Sensors, Vol. 17, Pages 1136: Development of a Flow Injection Based High Frequency Dual Channel Quartz Crystal Microbalance (2017)
    MDPI Publishing
    In: Sensors
    Details
    Publication Date: 2017-05-17
    Description: When the quartz crystal microbalance (QCM) is used in liquid for adsorption or desorption monitoring based bio- or chemical sensing applications, the frequency shift is not only determined by the surface mass change, but also by the change of liquid characteristics, such as density and viscosity, which are greatly affected by the liquid environmental temperature. A monolithic dual-channel QCM is designed and fabricated by arranging two QCM resonators on one single chip for cancelling the fluctuation induced by environmental factors. In actual applications, one QCM works as a specific sensor by modifying with functional membranes and the other acts as a reference, only measuring the liquid property. The dual-channel QCM is designed with an inverted-mesa structure, aiming to realize a high frequency miniaturized chip and suppress the frequency interference between the neighbored QCM resonators. The key problem of dual-channel QCMs is the interference between two channels, which is influenced by the distance of adjacent resonators. The diameter of the reference electrode has been designed into several values in order to find the optimal parameter. Experimental results demonstrated that the two QCMs could vibrate individually and the output frequency stability and drift can be greatly improved with the aid of the reference QCM.
    Electronic ISSN: 1424-8220
    Topics: Chemistry and Pharmacology , Electrical Engineering, Measurement and Control Technology
    Published by MDPI Publishing
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