Energy management in homes and residential microgrids : short-term scheduling and long-term planning / Reza Hemmati.

Format:

Book

Author/Creator:

Hemmati, Reza, author.

Contributor:

ScienceDirect (Online service)

Anthony Thomas Abraham Collection Endowment Fund in Energy Infrastructure.

Language:

English

Subjects (All):

Dwellings--Energy conservation.

Dwellings.

Electric power distribution.

Dwellings--Energy consumption.

Physical Description:

1 online resource

Place of Publication:

Amsterdam ; Cambridge, MA : Elsevier, [2024]

Contents:

Front Cover

Energy Management in Homes and Residential Microgrids

Copyright Page

Contents

Preface

1 Basic concepts of energy management in homes and residential microgrids

1.1 Introduction

1.2 Energy consumption in traditional homes

1.3 Energy consumption in modern homes

1.4 Wind and solar system modeling

1.5 Uncertainty of loads and renewable energies

1.6 Scenario generation and reduction techniques

1.7 Outages and events

1.8 Advanced topics and the future of home energy

1.9 Conclusions

References

2 Integration of renewable resources and energy storage systems

Nomenclature

2.1 Introduction

2.1.1 Some research gaps in home energy management

2.2 Home integrated with resources and grid

2.2.1 Nonrenewable resources

2.2.2 Battery energy storage systems

2.2.3 Loads and consumers

2.2.4 Exchanged power with grid

2.3 Mathematical model for home energy management system

2.4 Input data of test system

2.5 Operation without resources

2.6 Operation with all resources

2.7 Outage of elements and resources

2.8 Off-grid operation

2.9 Uncertainty in parameters

2.10 Conclusions

References

3 Integration of electric vehicles and charging stations

Indexes and sets

Parameters and variables

3.1 Introduction

3.1.1 Some research gaps in electric vehicle energy management

3.2 HEMS with electric vehicle parking station

3.2.1 Formulation of HEMS with parking station

3.2.2 Case study for HEMS with parking station

3.2.3 Simulation of HEMS with parking station

3.2.4 Parking station without discharge capability

3.2.5 Limited capacity for line

3.2.6 Stochastic HEMS with parking station

3.3 Residential microgrid with charging station

3.3.1 Input data and mathematical model

3.3.2 Simulations and discussions

3.3.3 Charging station without discharge capability

3.3.4 Stochastic model for microgrid with charging station

3.4 Microgrid with battery swapping station

3.4.1 Mathematical model for battery swapping station

3.4.2 Data of microgrid with battery swapping station

3.4.3 Discussions on battery swapping operation

3.4.4 Battery swapping without discharge capability

3.5 Conclusions

4 Capacity expansion planning in microgrids

Nomenclature

4.1 Introduction

4.1.1 Some research gaps in long-term expansion planning

4.2 Microgrid expansion planning

4.3 Expansion planning formulation

4.4 Test system data

4.5 Expansion planning on the test system

4.6 Impacts of input data on planning

4.7 Resilient planning under outages

4.8 Planning without the energy storage system

4.9 Stochastic expansion planning

4.9.1 Input data for the stochastic model

4.9.2 Results of the stochastic planning

4.10 Conclusions

5 District energy systems

Indexes and sets

Notes:

Includes bibliographical references and index.

Electronic reproduction. Amsterdam Available via World Wide Web.

Description based on online resource; title from digital title page (viewed on October 31, 2023).

Local Notes:

Acquired for the Penn Libraries with assistance from the Anthony Thomas Abraham Collection Endowment Fund in Energy Infrastructure.

Other Format:

ebook version :

ISBN:

9780443237294

0443237298

Publisher Number:

99994915810

Access Restriction:

Restricted for use by site license.