Optimization of Micro Processes in Fine Particle Agglomeration by Pelleting Flocculation: 1st Edition (Hardback) book cover

Optimization of Micro Processes in Fine Particle Agglomeration by Pelleting Flocculation

1st Edition

By Benjamin Oyegbile

CRC Press

122 pages

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Hardback: 9781138028616
pub: 2016-06-28
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pub: 2016-06-22
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Description

Efficient particle separation in order to meet stringent regulatory standards represent one of the biggest challenges facing the process industry operators today. Emerging environmental problems such as climate change, population growth and natural resource depletion make it more compelling to undertake research into alternative phase separation techniques and optimization of existing ones. Meeting this challenge requires innovative, revolutionary and integrated approach in the design and optimization of various unit processes in fine particle separation.

Flocculation is widely used as an effective phase separation technique across many process industries such as water and wastewater treatment and in minerals processing. In this work, a new pre-treatment technique was developed using a patented bench scale reactor unit as a technical proof of concept. Furthermore, the book provides a valuable insight into the hydrodynamics and fluid-particle interactions within the agglomeration units.

The relatively high solids content of the stable pellets (approximately 30 %) and very low residual turbidity of the post-sedimentation supernatant (7 NTU) clearly demonstrate the potential of this technique. In addition to significantly improving the subsequent solid-liquid separation efficiency, this study also showed that the effluent can be recycled back into the sewer network or utilized for non-portable reuse. The findings obtained from this research will be extremely useful in the scaling up and optimization of the reactor system.

Table of Contents

Table of Contents

1 Background, Problem Statement and Outline

1.1 Introduction & Study Background

1.2 State-of-the-Art in Residuals Processing

1.3 Problem Statement and Hypothesis

1.4 Overview and Scope of Study

1.5 Outline and Structure of the Thesis

2 Fundamentals of Flocculation and Colloidal Stability

2.1 Structure Formation in Dispersed Systems

2.2 Colloidal Stability and Interfacial Forces

2.3 Kinetics of Fine Particle Aggregation

2.4 Flocculation Assessment Techniques

3 Hydrodynamics and Floc Stability in Sheared Systems

3.1 Hydrodynamics and Fluid-Particle Interactions

3.2 Turbulent Aggregation Processes

4 Materials and Experimental Methods

4.1 Test Materials

4.2 Experimental Methods

5 Design Concept and Process Description

5.1 Structure Formation and Hydrodynamic Conditions

6 Mixing and Hydrodynamic Analysis

6.1 Theoretical Analysis of the Flow Conditions

6.2 Energy Input and Power Consumption

6.3 Fluid Flow and Mixing Characteristics

6.4 Micro and Macro Mixing

7 Optimization of the Micro Processes

7.1 Optimization of the Physicochemical Process

7.2 Optimization of the Pelleting Process

7.3 Process Relevant Pellet Characteristics

8 Conclusions and Perspectives

8.1 Effect of Rotor-Stator Configuration

8.2 Effect of Process Conditions

8.3 Future Perspectives

8.4 Concluding Remarks

About the Author

Benjamin Oyegbile is currently a Research Assistant at the Chair of Minerals Processing, Brandenburg Technical University Cottbus-Senftenberg Germany. His research interest is in the field of residuals and biogenic waste processing, as well as water and natural resource management. He is a member of several professional association such as International Solid Waste Association (ISWA) and American Water Works Association (AWWA).

Subject Categories

BISAC Subject Codes/Headings:
SCI013060
SCIENCE / Chemistry / Industrial & Technical
TEC009010
TECHNOLOGY & ENGINEERING / Chemical & Biochemical
TEC010010
TECHNOLOGY & ENGINEERING / Environmental / Pollution Control
TEC010030
TECHNOLOGY & ENGINEERING / Environmental / Water Supply