Frontiers in Membrane Technology : 7th IWA-RMTC 2024 / edited by Giorgio Mannina, How Yong Ng.

Format:

Book

Author/Creator:

Mannina, Giorgio.

Contributor:

Ng, How Yong.

Series:

Lecture Notes in Civil Engineering, 2366-2565 ; 525

Language:

English

Subjects (All):

Environmental engineering.

Civil engineering.

Refuse and refuse disposal.

Water.

Hydrology.

Environmental Civil Engineering.

Waste Management/Waste Technology.

Local Subjects:

Environmental Civil Engineering.

Waste Management/Waste Technology.

Water.

Physical Description:

1 online resource (221 pages)

Edition:

1st ed. 2024.

Place of Publication:

Cham : Springer Nature Switzerland : Imprint: Springer, 2024.

Summary:

This volume highlights the latest advances, innovations, and applications related to membrane technologies for water and wastewater treatment as presented by leading researchers at the 7th IWA Regional Membrane Technology Conference (IWA-RMTC), held in Palermo, Italy on June 18-21, 2024. The event took place together with the International Conference on Wider-Uptake of Water Resource Recovery from Wastewater Treatment (ICWRR). The contributions cover a wide range of topics such as membrane materials and configurations, hybrid membrane processes, drinking water treatment, domestic/industrial wastewater treatment, water reuse, resource recovery from wastewater, energy recovery from water and wastewater, desalination, membrane fouling mechanisms and control. The contributions were selected by means of a rigorous peer-review process and highlight many exciting ideas that will spur novel research directions and foster multidisciplinary collaboration among different water specialists. .

Contents:

Intro

Preface

Members of the Scientific Committee of the 7th International Water Association Regional Membrane Technology Conference - IWA-RMTC 2024

Contents

Resource Recovery from Wastewater

Can Water Conserving Toilet be a Solution to Achieve Higher Energy Recovery from Co-digestion of Toilet Waste and Kitchen Waste?

1 Introduction

2 Materials and Methods

3 Results and Discussion

4 Conclusions

References

Mechanisms of Biochar-Mediated Promotion of Acidogenic Fermentation in Waste Activated Sludge and Acetic Acid Production Pathways

2.1 Modified Sludge-based Biochar Preparation

2.2 Acid Production Batch Experiment Under Modified Biochar Pretreatment

3.1 Characterization of Modified Biochar

3.2 Effect of Modified Biochar on Acid Production

3.3 Enzyme Activity Analysis

3.4 An Exploration of Electronic Transfer Capabilities

3.5 Effect of Modified Biochar on Microbial Metabolic Processes

Electrodialysis as an Ammonium Reuse Process for Covering the Nitrogen Demand of an Industrial WWTP

2.1 Experimental Set-up and Operating Conditions

2.2 LCD Experiments

2.3 Concentration Experiments

3.1 LCD Experiments

3.2 Concentration Experiments

Optimization of the Feeding Condition for Mixed Culture Photo Fermentative Hydrogen and Polyhydroxyalcanohates Production from Dark Fermentation Effluents

2.1 Materials and Experimental Operating Conditions

2.2 Analytical Methods

Advancing Efficiency in EDBM: Investigating the Interplay of Pressure Variations and Volume Management.

1 Introduction

Domestic/Industrial Wastewater Treatment

Combined Water Clarification

2 Combined Water Clarification

3 DuOx Nozzle

4 OxTube Machine

5 Water Treatment Unit

6 Combined Applications

7 Conclusions

Zeolite Materials for the Removal of Pharmaceuticals from Aqueous Medium

2.1 Sorbents

2.2 Adsorption and Desorption Experiments

3.1 Characterization of Adsorbents

3.2 The Effect of the Initial Concentrations

3.3 The Effect of Time Reaction

3.4 Regeneration

3.5 Efficiency in the Treatment of Real Wastewater

Removal of Selected PPCPs and Associated Bacterial Community Variations in a Pilot Scale A/O-MBBR Reactor System

2.1 System Setup and Operation

3.1 Distribution and Variation of PPCPs in the System

3.2 Removal Efficiency of PPCPs

3.3 Bacterial Community Composition

Molecular-Level Insights into the Degradation of Dissolved Organic Matter from Cyanobacteria-Impacted Water by Electro-Oxidation and Electro-Fenton

2.1 Electrode Material Preparation

2.2 Methods

Development of Cellulose Filter Papers Modified with ZnO-Based Nanoparticles to Instantly Disinfect Water with No Need for Energy

2.1 ZnO-Based Nanoparticles Synthesis

2.2 Modification of Filter Papers

2.3 Characterization of the Samples

2.4 Determination of Flow Rate and the Bacterial Removal Efficiency of the Filter Papers.

3 Results and Discussion

Membrane Bioreactors

IFAS Intermittent Aeration Membrane Bioreactor System: The Influence of Sludge Retention Time

Water Reuse from Wastewater: Comparison Between Membrane Bioreactor and Ultrafiltration Process

Kinetic Comparison of Attached and Suspended Biomass in an IFAS-MBR System Operated Under Intermittent Aeration: Long-Term Monitoring Under SRT Variation

Optimization of MBRs Through Integrated Modelling

2 Performance Indicators

2.1 Effluent Quality

2.2 Energy Consumption

2.3 Operating Costs

2.4 GHC Emissions

2.5 Membrane Fouling

2.6 Aeration

2.7 MBR Optimization

3 Conclusions and Recommendations

Removal of Ibuprofen, Diclofenac and Metoprolol by Commercial Membranes

2.1 Materials

3.1 Cross Flow Experiment of Individual Pharmaceuticals

3.2 Cross Flow Experiment of Pharmaceuticals Mixture

MBR Performance in a Rubber Smoked Sheet Plant: A Case Study of Small Agricultural Cooperatives

2.1 Experimental Set-up

2.2 MBR Control

2.3 ASM3 Modified Modelling

3.1 MBR Performance

3.2 Biokinetic of MBR

References.

Investigation of the Agricultural Reuse Potential of Urban Wastewater and Other Resources Derived by Using Membrane Bioreactor Technology Within the Circular Economy Framework

2.1 Pilot Plant

Towards a Unified Framework for Modelling of Bipolar Membrane Electrodialysis for Resource Recovery Processes

2 Methodological Approach

3.1 Initialisation

3.2 N-tuple Level

3.3 Stack-Level

3.4 Input-Output Flows

4 Conclusion

Novel Membrane Materials and Hybrid Membrane Processes

Improving Recovery of Valuable Bio-Products from Sewage Sludge Using Innovative Membrane Technologies

Innovative Membrane Bioreactors for Advanced and Sustainable Wastewater Treatment

Super-Hydrophilic and Positive Charged Pressure Retarded Osmosis Membrane for Efficient Ammonia Recovery and Energy Production

3 Key Results and Discussion

3.1 RaPRO Membrane Properties

3.2 RaPRO Membrane Performance

Design of Cellulose Acetate Electrospun Membranes Loaded with N-doped Carbon Quantum Dots for Water Remediation

2.2 Preparation Techniques

2.3 Methods

Rotate Instead of Aerate More: The Rotating Hollow Fibre Membrane Bioreactor

Magnetic Nanoparticles Decorated with Synthetic Zeolite Derived from Coal Fly Ash: Application to Removal of Heavy Metals and Organic Dyes

2.1 Synthesis of NaX-UP and IL-NaX-UP Zeolites

2.2 Synthesis of Bare Fe3O4 NPs and Fe3O4 NPs-IL-NaX-UP Zeolites

3.1 Results

3.2 Discussion

Chemical Nanobubbles Controlled Guanidyl-Incorporated Nanofiltration Membrane with High Flux in Mg/Li Separation

2.1 Fabrication of Chemical Nanobubble NF Membrane

2.2 Analysis Method

3.1 Characterization of G-NF/G-PEI-NF Membranes

3.2 Evaluation of Membrane Performance

3.3 Mechanism Analysis

Keynote: Integration of Artificial Intelligence into Membrane-Based Water Treatment: From Mechanisms to Processes

3.1 Modeling and Mechanism Analysis of TrOC Rejection by Membranes

3.2 Modeling of Oxidation Kinetics in Catalytic Membrane at Different pH

3.3 Modeling of Fouling Behavior in Anaerobic Membrane Bioreactors (AnMBRs)

Membrane Fouling Mechanisms and Control

Adaptive Optimal Model-Based Control of Membrane Systems Fouling: A Generic Robust Approach

2.1 The Simulation Model: A Virtual Process to Evaluate the Approach

2.2 Modeling Fouling Dynamics

2.3 An Optimal Control Approach

2.4 An Adaptive Optimal Control Approach

Polyethersulfone Membrane Nano-Modified with MoS2-CeO2 for the Effective Separation of Oil-in-Water Emulsions

2.1 Materials.

2.2 Synthesis of MoS2-CeO2Nanohybrid and MoS2-CeO2/PES Membrane.

Notes:

Description based on publisher supplied metadata and other sources.

Other Format:

Print version: Mannina, Giorgio Frontiers in Membrane Technology

ISBN:

9783031633577

OCLC:

1443003238