Integrated Energy Systems : Design, Control and Operation / Bikram Das, editor.

Format:

Book

Contributor:

Dāsa, Bikrama, editor.

Series:

Energy science, engineering and technology series.

Energy Science, Engineering and Technology Series

Language:

English

Subjects (All):

Power resources.

Physical Description:

1 online resource (198 pages)

Edition:

First edition.

Place of Publication:

New York : Nova Science Publishers, Inc., [2024]

Summary:

"This book describes the foundations of energy resources and includes most of the important aspects and relevant issues of conventional and non-conventional energy sources. It thoroughly explains the facets of energy conversion processes from food waste, including comparative analyses, benefits, and challenges associated with building an energy system that uses food waste as its primary input. It also provides an example of contemporary grid-connected photovoltaic (PV) system control methods. Subsequently, it describes the transient stability of the DC microgrid which has been investigated whenever any voltage and load change creates an imbalance in active power. Afterwards it shows the implementation of control algorithms for the microgrid powered by hybrid energy sources with the main objective of the energy management control. It also shows the integrated energy management systems used to control the demand of power supply to the end users. Integrated energy management systems will be significant and reliable in the future. It also presents multi-objective optimal power flow solution with wind power integrated conventional power systems. It also describes the amalgamation of renewable energy systems in the existing grid system which is the main cause of instability and equilibrium issues. Lastly, it ends with the discussion of different energy storage schemes and the control and management for proper utilization of energy"-- Provided by publisher.

Contents:

Intro

Contents

Preface

Chapter 1

Energy Resources: Origins and Related Issues

Abstract

Introduction

Classification of Energy Resources

Energy Units and Their Conversion

Types of Conventional (Non-Renewable) Energy Sources

Coal: Classification

Selection of Coal for Power Plants (Gupta, 2007)

Liquid Fuels

Gaseous Fuels

Nuclear Fuels

Renewables

Solar Energy

Wind Energy

Small Hydropower System

Tidal Energy

Geothermal Energy

Conclusion

References

Chapter 2

The Design and Operational Aspects of the Food Waste-Based Energy System

Waste-to-Energy Conversion Technologies

Anaerobic Digestion of Food Waste to Produce Biogas

1. Range of Temperature

2. Carbon to Nitrogen Ratio

3. pH Level

4. Ammonia

5. Organic Loading Rate (OLR) and Hydraulic Retention Time (HRT)

Fermentation of Food Waste for Ethanol Creation

Pyrolysis of Food Waste for the Generation of Bio-Chars, Syngas, and Bio-Oils

Incineration of Food Waste for Heat and Energy Generation

Hydrothermal Carbonization of Food Waste

Gasification of Food Waste

Designing of Food Waste-Based Energy System: Challenges and Solutions

Chapter 3

The Modern Control of Grid Connected PV Systems - A Critical Review

Modelling of Grid Connected PV System

Power Flow in Grid-Connected PV System

Modelling of Photovoltaic (PV) System

DC-DC Converter Control (P &amp

O MPPT Method)

Voltage Source Inverter (VSI) Control Topologies

Topology-I (d-q Control)

Topology-II (p-q Control)

Topology-III (Fuzzy-Based Intelligent Control)

LVRT Requirements

Results and Discussion

Photovoltaic (PV) Output

Operation of VSI under Normal Grid Condition.

Operation of VSI under Abnormal Grid Condition (LVRT Operation)

LVRT Operation under L-L-L Fault

LVRT Operation under L-G Fault

LVRT Operation under L-L Fault

LVRT Operation under L-L-G Fault

Discussion

Acknowledgments

Appendix

Chapter 4

A Transient Stability Analysis of an Off Grid DC Microgrid

Definition of a Microgrid

DC Microgrid Literature Review in Terms of Its Stability and Renewable Integration

Solar Photovoltaic As Distributed Generator

Transient Stability in a DC Microgrid

Case Study

Case 1: When the Loads and Voltage Is Changing. (Load Is Linear)

Case 2: When Both Load and Voltage Are Decreasing

Case 3: When the Load Is Non-Linear

Chapter 5

The Control and Operation of Microgrids Powered by Hybrid Energy Sources

Proposed Energy Management Control

Simulation Analysis

1. Total DG's Power = AC Load Power

2. AC Load Power &gt

DG Power Generation

3. DC Load Power &gt

4. AC Load &lt

5. Uncertainty in DG Inputs

Chapter 6

The Integrated Management of Renewable Energy Systems

Literature Survey

Renewable Energy Sources

PV Solar Energy

Integrated Energy Management System

Advantages and Limitations of Current Events

Result and Analysis

Chapter 7

An Optimal Economic and Environmental Dispatch with the Integration of Wind Power Generation Using Multi-Objective Ant Lion Optimizer Algorithm

Wind Power Modeling for Load Flow Analysis

Cost Calculation of Wind Power Plant

Locational Marginal Price Calculation

Objective Function

Constraints

Generator Constraints.

Ant Lion Optimization

Case 1: Minimization of Fuel Cost

Case 2: Minimization of Emission

Case 3: Minimization of Emission and Cost of Fuel

Case 4: Fuel Cost Minimization with Wind Power

Case 6: Cost of Fuel and Emission with Integration of Wind Power

Chapter 8

The Impact of FACTS Controllers, AVR and PSS on a DFIG Driven Grid Connected Wind Energy Conversion System

Designing of Facts Controllers

STATCOM- Static Synchronous Compensator

UPFC- Unified Power Flow Controller

SVC- Static VAR Compensator

Synchronous Stability

Simulation Studies

Section I

Test Case 1-

Test Case 2-

Test Case 3-

Test Case 4-

Section II

Chapter 9

Energy Storage Schemes, Controls, and the Management of Integrated Energy Systems

Systems of Energy Storage

Battery Energy Storage System (BESS)

Flywheel Energy Storage System (FESS)

Pumped Hydroelectric Energy Storage (PHES)

Super Conducting Magnetic Energy Storage System (SMES)

Super Capacitor Energy Storage System (SCESS)

Systems of Hybrid Energy Storage

Control and Energy Management

Frequency Control Model of Microgrid

Energy Management

About the Editors

Index

Blank Page.

Notes:

Includes bibliographical references and index.

Description based on print version record.

Other Format:

Print version: Das, Bikram Integrated Energy Systems: Design, Control and Operation

ISBN:

979-88-911-3227-6

OCLC:

1414468871