Proceedings of the International Conference on Sustainable Energy Technologies : ICSET2023, 10–11 Nov; Ho Chi Minh City, Vietnam / edited by Djourkov Todor, Sivanappan Kumar, Seung-Bok Choi, Hung Nguyen-Xuan, Quoc Hung Nguyen, Thanh Trung Bui.

Format:

Book

Contributor:

Todor, Djourkov, editor.

Series:

Green Energy and Technology, 1865-3537

Language:

English

Subjects (All):

Renewable energy sources.

Materials.

Catalysis.

Force and energy.

Buildings--Environmental engineering.

Buildings.

Sustainability.

Thermodynamics.

Heat engineering.

Heat--Transmission.

Heat.

Mass transfer.

Fluid mechanics.

Renewable Energy.

Materials for Energy and Catalysis.

Building Physics, HVAC.

Engineering Thermodynamics, Heat and Mass Transfer.

Engineering Fluid Dynamics.

Local Subjects:

Renewable Energy.

Materials for Energy and Catalysis.

Building Physics, HVAC.

Sustainability.

Engineering Thermodynamics, Heat and Mass Transfer.

Engineering Fluid Dynamics.

Physical Description:

1 online resource (858 pages)

Edition:

1st ed. 2024.

Place of Publication:

Singapore : Springer Nature Singapore : Imprint: Springer, 2024.

Summary:

This book includes selected peer-reviewed articles from the International Conference on Sustainable Energy Technology; ICSET 2023 held at the Industrial University of Ho Chi Minh City, Vietnam, with a focus on the theme “Sustainable Energy Technologies in the Fourth Industrial Revolution.” Topics refer to heat and refrigeration engineering including heat transfer and heat exchanger, energy saving and efficient use of energy, energy safety, sustainable energy development and environmental protection, new energy and renewable energy, techniques for drying and preserving agricultural and food products, boilers and heat network, gasification, pyrolysis technology, air conditioning and ventilation, refrigeration equipment, computational fluid dynamics, computational intelligence in renewable energy, optimization in electrical–electronics systems, advanced manufacturing technologies, robotics and mechatronics, automotive engineering. The book not only provides an awareness on the vital importance of sustainability in technologies, economics, education and countries' development but also highlights the essential roles of technological innovations in attaining sustainable development. It provides an international platform for researchers, practitioners, policymakers and entrepreneurs to present recent advances and to exchange knowledge and experience on various topics related to the theme of sustainable energy technology in the fourth industrial revolution.

Contents:

Intro

Committees

Preface

Contents

Heat and Refrigeration Engineering (HRE)

Carrot Fibers Drying on a Forced Convection Greenhouse Model with Heat Additional Providing by Solar Energy

1 Introduction

2 Materials and Methods

2.1 The Layout of the HAFCGD

2.2 Technology Parameters of the Drying Process and Determination Methods

2.3 Experimental Setting

3 Results and Discussions

3.1 Analysis of Parameter Variations in Response to Solar Radiation Intensity

3.2 Drying Operation Control Settings

4 Conclusion

References

Experimental Research for Determination of the Equilibrium Moisture Content Equation of Refined Salt

2 Data and Research Methods

2.1 Experiment Tools

2.2 Preparing Saturated Salt Solution

2.3 Using Published Mathematical Models to Determine Equilibrium Moisture Content

3 Experimental Study

3.1 Conducting Experiments

3.2 Processing Experimental Data

Heat Transfer from Hot Air to Solid Particles: Application in the Calculation of Refined Salt Fluidized Bed Drying

2 Single Particle Theory

2.1 Single Particle Theory

2.2 Some Research Findings on Gas-Particle Heat Transfer by Various Authors

2.3 Gas-Particle Heat Transfer in Fluidized Bed

Study About the Flow Pattern Map for Convective Boiling in Horizontal Microfin Tube of Refrigerant R1234ze

2 Theoretical Approach

2.1 Theoretical Approach

2.2 Working Range of Performance

3 Results

3.1 Effect of Mass Flux on the Formation of the Flow Pattern Map

3.2 Compare the Flow Pattern Map of R1234ze and R134a on Microfin Tube

3.3 Compare the Flow Pattern Map of R1234ze on Smooth and Microfin Tube.

3.4 Compare the Model with the Experimental Flow Pattern Map of R1234ze

Design and Implementation of a Smart Dryer for Agricultural Drying

2 Material and Methods

2.1 Block Diagram of System

2.2 Main Algorithm Flowchart

3 Results and Discussion

3.1 Design of Dryer

3.2 Drying Performance with Fruits

4 Results and Discussion

A Controlled Environmental Chamber for Growing Cordyceps Militaris

2 Experimental Setup

2.1 Structure of Growth Chamber for C. Militaris

2.2 Setup Experiment to Record of the Growing of C. Militaris

3.1 The Results of the Temperature and Relative Humidity Measurement Test of Growth Chamber

3.2 Recording of the Growing of C. Militaris

Numerical Investigation of Flow Around 2D Modified Circular Cylinders at the Low Reynolds Number

2 Numerical Simulation Methodology

2.1 Model Description

2.2 Governing Equations

2.3 Boundary Conditions and Simulation Parameters

3.1 Flow Characteristics Around a Circular Cylinder

3.2 Influence of Normal Slit Location

3.3 Influence of Rear Concave Configuration

Hydrogen Charging Process of a Metal Hydride Hydrogen Storage System Using Phase Change Material for Self-Contained Thermal Management

2 Methodology

3.1 Hydrogen Charging Without Controlling Flow Rate

3.2 Charging with Different Hydrogen Pressure

3.3 Charging with Different Hydrogen Flow Rates

A Numerical Simulation on Heat Transfer Characteristics in the Cascade Heat Exchanger of a R134a/CO2 Refrigeration System

2.1 Structure Design.

2.2 Structure Design

3.1 Temperature Distribution

3.2 Quality Vapor Transition

3.3 Validating Simulation

Numerical Investigation on the Performance of Two Elliptical Solar Stills

2 Model Description

4 Conclusions

Calculation of the Heat Transfer Coefficients for the Magnetic Field Assisted Freezing of Pangasius Fillet

2 Freezing Process and Mathematical Modeling

2.1 Unstable Temperature Measurement Method

2.2 Method of Determining the Heat Transfer Coefficient of Irregular Shaped Food

Experimental Study of Ejector Integrated in Vapor Compression Refrigeration Systems Utilizing Low-Grade Heat Sources

2.1 Experimental Setup

2.2 System Performance Evaluation

3.1 Evaluation of Operational Capability

3.2 Evaluation of Applicability.

Assessment of Battery Temperature for Thermal Management of Electric Vehicles Using SIMCENTER AMESim

2 Introduction

2.1 Battery Thermal Management System

2.2 Electrical and Thermal Modeling

3.1 Influence of Ambient Temperature and the Module Number on Battery Thermal Management System

3.2 Influence of Air-Cooling Mass Flow Rate and Module Spacing on Battery Thermal Management System

Effects of Different Drying Methods on Drying Time and Color of Non-fermented Cocoa Beans (Theobroma Cocoa L.)

2.1 Cocoa Beans Samples

2.2 Drying Equipment

2.3 Determining the Quality Parameters of Cocoa Beans

3.1 Hot Air Drying.

3.2 Heat Pump Drying

3.3 Greenhouse Drying

Research on Optimal Installation of Outdoor Condensing Units for High-Rise Buildings

2.2 Mathematical Model

2.3 Mesh Independence Tests

Optimization of Radiofrequency Assisted Heat Pump Drying of Carrot

2.1 Material

2.2 Experimental Methods

2.3 Method of Optimization of Radiofrequency Assisted Heat Pump Drying of Carrot

3.1 Analysis of Variance for Drying Time and Color Change Index

3.2 The Optimum Predicted Drying Conditions of Radio Frequency Assisted Heat Pump Drying of Carrot

An Experiment and Simulation of the Affecting of Indoor Unit Location on Temperature Distribution in the Small Narrow Area

2.1 Initial Data and Parameter Setting

2.2 Simulation Setup

2.3 Experiment Setup

3.1 Simulation Results

3.2 Experiment Results

Study of Drying Kinetics During Cocoa Roasting in Rotating-Pulsed Fluidized Bed

4 Results Summary

5 Conclusions

Heat Transfer Coefficient and Pressure Drop of Evaporating R448A Inside Multiport Mini-Channel Tubes

2 Experimental Systems

2.1 Margins and Page Numbering

2.2 Data Reduction

3 Result and Discussion

3.1 Experimental Result

3.2 Correlation Evaluation

A Numerical Simulation and Optimization of Fluid Cooling System for Electric Vehicle's Battery

2 Numerical Simulation Method

2.1 Fluid Flow Modeling.

2.2 Battery Modeling

2.3 Heat Transfer Modeling

2.4 Physic Conditions

Numerical Simulation of Heat Pump Drying Process of Turmeric Slices

3 Experiment Setup

5 Conclusion

Exploring the Theoretical Efficiency of an R134a Two-Phase Ejector as an Expansion Device

2 System Overview

3 System Overview

3.1 Assumptions

3.2 Balance Equations

3.3 Methodology

4.1 Model Validation

4.2 Effect of Condensation Temperature

4.3 Effect of Evaporation Temperature

4.4 Effect of Separator Temperature

4.5 Effect of Superheating Temperature

4.6 Compare Traditional Compression Cycle

Mechanical Engineering and Advanced Technologies (MEAT)

Fabrication and Characterization of a Simple Tensegrity Structure

2.1 Structure of the Tensegrity Table

2.2 Simulation for Load Distribution

2.3 Experiments for Load Distribution

3.1 Simulation Results Using Comsol

3.2 Calculating the Load Capacity of the Tensegrity Table

3.3 Measuring Load Distribution Using Loadcells

4 Results and Discussions

Simulation Study on Pressure Distribution in Polishing the Complex Surfaces with Non-Newtonian Fluids

2 Simulation Setup

2.1 Characteristics of the STP Process

2.2 Simulation Model and Conditions

Multi-objective Optimization of the Slider-Crank Mechanism with Spring and Its Application to the Wood Splitter Design

2 Multi-objective Mathematical Model of the Slider-Crank Mechanism with Spring.

3 Case Study: The Wood Splitter.

Notes:

Includes bibliographical references.

Other Format:

Print version: Todor, Djourkov Proceedings of the International Conference on Sustainable Energy Technologies

ISBN:

9789819718689