Integrated Green Energy Solutions, Volume 1

Preface xvii

1 Green Economy and the Future in a Post-Pandemic World 1
Luke Gerard Christie and Deepa Cherian

1.1 Intergovernmental Panel on Climate Change 2

1.2 The Need to Question How we Do Business and the Evolution of Green Policies 3

1.3 The Shift from Fossil Fuels to Nuclear Energy for a Cleaner, Sustainable Environment 4

1.4 Significance of Emergent Technologies in the Reduction of Global Warming and Climate Change 6

Conclusion 8

Bibliography 9

2 Home Automation System Using Internet of Things for Real-Time Power Analysis and Control of Devices 11
Richik Ray, Rishita Shanker, V. Anantha Krishnan, O.V. Gnana Swathika and C. Vaithilingam

2.1 Introduction 12

2.2 Methodology 14

2.3 Design Specifications 15

2.3.1 Components Required 15

2.3.2 Circuit Diagram and Working 18

2.3.3 Blynk GUI (Graphical User Interface) for Smartphone 19

2.3.4 PCB (Printed Circuit Board) Design 20

2.4 Results and Discussion 20

2.4.1 Prototype Design Completion 20

2.4.2 Testing and Observations 22

2.4.3 Future Prospects 23

2.5 Conclusion 24

References 25

3 Energy Generation from Secondary Li-Ion Batteries to Economical Na-Ion Batteries 27
R. Rajapriya and Milind Shrinivas Dangate

3.1 Introduction 28

3.2 Li-Ion Battery 29

3.3 Sodium-Ion Batteries 33

3.4 Conclusion 40

References 41

4 Hydrogen as a Fuel Cell 45
R. Rajapriya and Milind Shrinivas Dangate

4.1 Introduction 45

4.2 Operating Principle 48

4.2.1 Types of Fuel Cells 49

4.3 Why Hydrogen as a Fuel Cell? 50

4.3.1 Electrolyte 52

4.3.2 Catalyst Layer (At the Cathode & Anode) 52

4.3.3 Bipolar Plate (Cathode & Anode) 52

4.4 Hydrogen as an Energy-Vector in a Long-Term Fuel Cell 53

4.5 Application 55

4.6 Conclusion 56

References 57

5 IoT and Machine Learning-Based Energy-Efficient Smart Buildings 61
Aaron Biju, Gautum Subhash V.P., Menon Adarsh Sivadas, Thejus R. Krishnan, Abhijith R. Nair, Anantha Krishnan V. and O.V. Gnana Swathika

5.1 Introduction 61

5.2 Methodology 63

5.3 Design Specifications 65

5.3.1 NodeMCU 65

5.3.2 Relay 65

5.3.3 Firebase 66

5.3.4 Raspberry Pi 66

5.3.5 Camera 66

5.4 Results 66

5.5 Conclusion 69

References 69

6 IOT-Based Smart Metering 71
Parth Bhargav, Umar Ansari, Fahad Nishat and O.V. Gnana Swathika

Abbreviations and Nomenclature 72

6.1 Introduction 72

6.1.1 Motivation 72

6.1.2 Objectives 73

6.2 Methodology 73

6.2.1 Advent of Smart Meter 73

6.2.2 Modules 77

6.2.3 Energy Meter 77

6.2.4 Wi-Fi Module 78

6.2.5 Arduino UNO 78

6.2.6 Back End 78

6.3 Design of IOT-Based Smart Meter 81

6.3.1 Energy Meter 81

6.3.2 Arduino UNO 82

6.3.3 Wi-Fi Module 83

6.3.4 Calculations 84

6.3.5 Units 84

6.4 Results and Discussion 84

6.4.1 Working 84

6.4.2 Readings Captured in the Excel Sheet 85

6.4.3 Predication Using Statistical Analytics 86

6.4.4 Quantitative Analytics 86

6.4.5 Predication of Missing Data 87

6.4.6 Hardware Output 87

6.5 Conclusion 88

References 89

7 IoT-Based Home Automation and Power Consumption Analysis 93
K. Trinath Raja, Challa Ravi Teja, K. Madhu Priya and Berlin Hency V.

7.1 Introduction 94

7.2 Literature Review 94

7.3 IoT (Internet of Things) 96

7.4 Architecture 96

7.5 Software 97

7.5.1 IFTTT 97

7.5.2 ThingSpeak 97

7.5.3 Google Assistant 98

7.6 Hardware 98

7.6.1 DHT Sensor 98

7.6.2 Motor 98

7.6.3 NodeMCU 99

7.6.4 Gas Sensor 99

7.7 Implementation, Testing and Results 99

7.8 Conclusion 102

References 103

8 Advanced Technologies in Integrated Energy Systems 105
Maheedhar and Deepa T.

8.1 Introduction 106

8.2 Combined Heat and Power 107

8.2.1 Stirling Engines 107

8.2.2 Turbines 108

8.2.3 Fuel Cell 110

8.2.4 Chillers 112

8.2.5 PV/T System 113

8.3 Economic Aspects 114

8.4 Conclusion 115

References 116

9 A Study to Enhance the Alkaline Surfactant Polymer (ASP) Process Using Organic Base 119
M.J.A. Prince and Adhithiya Venkatachalapati Thulasiraman

9.1 Introduction 119

9.2 Materials and Methods 121

9.3 Similarity Study of NA in the Saline Water Containing Cations Having a Valency of 2 122

9.4 Results and Discussion 123

9.4.1 Alkalinity Contributed by NA for Intensifying the IFT Characteristics 123

9.4.2 Interfacial Tension Properties 124

9.4.3 The Similarity of NA + Polymer 124

9.4.4 Traits of Adsorption 125

9.4.5 Economics 125

9.4.6 Regular NA Injection Recommendation 125

9.5 Conclusions 126

References 126

10 Flexible Metamaterials for Energy Harvesting Applications 129
K.A. Karthigeyan, E. Manikandan, E. Papanasam and S. Radha

10.1 Introduction 130

10.2 Metamaterials 131

10.2.1 Energy Harvesting Using Metamaterials 132

10.2.2 Solar Energy Harvesting 132

10.2.2.1 Numerical Setup 133

10.2.3 Acoustic Energy Harvesting 135

10.2.4 RF Energy Harvesting 137

10.3 Summary and Challenges 138

References 138

11 Smart Robotic Arm 141
Rangit Ray, Koustav Das, Akash Adhikary, Akash Pandey, Ananthakrishnan V. and O.V. Gnana Swathika

Abbreviations and Nomenclature 141

11.1 Introduction 142

11.1.1 Motivation 142

11.1.2 Objectives 143

11.1.3 Scope of the Work 143

11.1.4 Organization 143

11.2 Design of Robotic Arm with a Bot 144

11.2.1 Design Approach 144

11.2.1.1 Codes and Standards 144

11.2.1.2 Realistic Constraints 144

11.2.2 Design Specifications 149

11.3 Project Demonstration 152

11.3.1 Introduction 152

11.3.2 Analytical Results 153

11.3.3 Simulation Results 153

11.3.4 Hardware Results 154

11.4 Conclusion 155

11.4.1 Cost Analysis 155

11.4.2 Scope of Work 155

11.4.3 Summary 155

References 156

12 Energy Technologies and Pricing Policies: Case Study 157
Shanmugha S. and Milind Shrinivas Dangate

12.1 Introduction 157

12.2 Literature Review 159

12.3 Non-Linear Pricing 161

12.4 Agricultural Water Demand 162

12.5 Priced Inputs and Unpriced Resources 163

12.6 Proposed Set Up on Paper 164

12.7 Empirical Model 167

12.8 Identification Strategy 168

12.9 Data 170

12.10 Empirical Results 171

12.11 Counterfactual Simulation A 173

12.12 Counterfactual Simulation B 174

12.13 Counterfactual Simulation: Costs of Reduced Groundwater Demand 176

12.14 Conclusion 180

References 181

13 Energy Availability and Resource Management: Case Study 185
Shanmugha S. and Milind Shrinivas Dangate

13.1 Introduction 185

13.2 Literature Review 187

13.3 Study Area 189

13.3.1 Producer Survey 192

13.4 Empirical Model of Adoption 193

13.5 Material and Methods 196

13.6 Results 198

13.7 Conclusion 203

References 204

14 Energy-Efficient Dough Rolling Machine 207
Nerella Venkata Sai Charan, Abhishek Antony Mathew, Adnan Ahamad Syed, Nallavelli Preetham Reddy, Anantha Krishnan V. and O.V. Gnana Swathika

14.1 Introduction 208

14.2 Methodology 208

14.3 Specifications 210

14.3.1 Motor 210

14.3.2 Switch Mode Power Supply (SMPS) 210

14.3.3 Speed Reduction 211

14.3.4 Coupler 212

14.3.5 Main Base Structure 212

14.3.6 Rotating Platform and Rollers 212

14.3.7 Rotating Platform 213

14.3.8 Rollers 213

14.4 Result and Discussion 215

14.5 Conclusion 215

References 215

15 Peak Load Management System Using Node-Red Software Considering Peak Load Analysis 217
Mohit Sharan, Prantika Das, Harsh Gupta, S. Angalaeswari, T. Deepa, P. Balamurugan and D. Subbulekshmi

15.1 Introduction 218

15.2 Methodology 219

15.2.1 Peak Demand and Load Profile 219

15.2.2 Need of Peak Load Management (PLM) 220

15.2.3 Data Analysis 220

15.2.4 Need to Flatten the Load Curve 221

15.2.5 Current Observations 221

15.2.6 Equations 221

15.3 Model Specifications 221

15.4 Features of UI Interface 225

15.4.1 App Prototype 225

15.5 Conclusions 227

Bibliography 227

16 An Overview on the Energy Economics Associated with the Energy Industry 229
Adhithiya Venkatachalapati Thulasiraman and M.J.A. Prince

16.1 Time Value of Money 230

16.1.1 Present Value of an Asset 230

16.1.2 Future Value of an Investment 230

16.1.3 Rule of 72 231

16.2 Classification of Cost 232

16.2.1 Fixed Cost of an Asset (FCA) 232

16.2.2 Variable Cost of a Plant (VCP) 232

16.2.3 Total Cost of a Plant (TCP) 232

16.2.4 Break-Even Location (BEL) 232

16.3 Economic Specification 233

16.3.1 Return on Cost (ROC) 233

16.3.2 Payback Span 233

16.3.3 Net Present Worth 233

16.3.4 Discounted Money Flow (DMF) 234

16.3.5 Internal Charge of Returns (ICR) 234

16.4 Analysis 234

16.4.1 Incremental Analysis (IA) 234

16.4.1.1 Pertinent Cost (PC) 234

16.4.1.2 Non-Pertinent Cost (NPC) 235

16.4.2 Sensitivity Analysis (SA) 235

16.4.3 Replacement Analysis (RA) 237

16.5 Conclusion 239

Bibliography 240

17 IoT-Based Unified Child Monitoring and Security System 241
A.R. Mirunalini, Shwetha. S., R. Priyanka and Berlin Hency V.

17.1 Introduction 242

17.2 Literature Review 243

17.3 Proposed System 247

17.3.1 Block Diagram 247

17.3.2 Design Approach 249

17.3.3 Software Analysis 249

17.3.4 Hardware Analysis 252

17.3.4.1 Experimental Setup 253

17.4 Result and Analysis 256

17.5 Conclusion and Future Enhancement 259

17.5.1 Conclusion and Inference 259

17.5.2 Future Enhancement 260

References 260

18 IoT-Based Plant Health Monitoring System Using CNN and Image Processing 263
Anindita Banerjee, Ekta Lal and Berlin Hency V.

18.1 Introduction 264

18.2 Literature Survey 265

18.3 Data Analysis 268

18.3.1 Convolutional Neural Network 268

18.3.2 Phases of the Model 269

18.3.3 Proposed Architecture 269

18.4 Proposed Methodology 271

18.4.1 System Module and Structure 271

18.4.2 System Design and Methods 272

18.4.3 Plant Disease Detection and Classification 272

18.4.3.1 Dataset Used 272

18.4.3.2 Preprocessing and Labelling Methods 273

18.4.3.3 Procedure of Augmentation 273

18.4.3.4 Training Using CNN 273

18.4.3.5 Analysis 275

18.4.3.6 Final Polishing of Results 275

18.4.4 Hardware and Software Instruments 275

18.5 Results and Discussion 275

18.6 Conclusion 286

References 286

19 IoT-Based Self-Checkout Stores Using Face Mask Detection 291
Shreya M., R. Nandita, Seshan Rajaraman and Berlin Hency V.

19.1 Introduction 292

19.2 Literature Review 292

19.2.1 Self-Checkout Stores 292

19.2.2 Face Mask Detection 293

19.3 Convolution Neural Network 295

19.4 Architecture 298

19.5 Hardware Requirements 299

19.5.1 PIR Sensor 299

19.5.2 LCD 299

19.5.3 Arduino UNO 299

19.5.4 Piezo Sensor 299

19.5.5 Potentiometer 300

19.5.6 Led 300

19.5.7 Raspberry Pi 300

19.6 Software 300

19.6.1 Jupyter Notebook 300

19.6.2 TinkerCAD 300

19.7 Implementation 300

19.7.1 Building and Training the Model 301

19.7.2 Testing The Model 302

19.8 Results and Discussions 303

19.9 Conclusion 306

References 306

20 IoT-Based Color Fault Detection Using TCS 3200

in Textile Industry 309
T. Kalavathidevi, S. Umadevi, S. Ramesh, D. Renukadevi and S. Revathi

20.1 Introduction 310

20.2 Literature Survey 311

20.3 Methodology 313

20.3.1 Sensor 314

20.3.2 Microcontroller 315

20.3.3 NodeMCU and Wi-Fi Module 317

20.3.4 Servomotor 317

20.3.5 IoT-Based Data Monitoring 318

20.3.6 IR Sensor 318

20.3.7 Proximity Sensor 319

20.3.8 Blynk 319

20.4 Experimental Setup 321

20.5 Results and Discussion 322

20.6 Conclusion 324

References 324

21 Energy Management System for Smart Buildings 327
Shivangi Shukla, V. Jayashree Nivedhitha, Akshitha Shankar, P. Tejaswi and O.V. Gnana Swathika

21.1 Introduction 328

21.2 Literature Survey 328

21.3 Modules of the Project 331

21.3.1 Data Collection for Accurate Energy Prediction 331

21.3.2 ML Prediction 332

21.3.3 Web Server 332

21.3.4 Hardware Description and Implementation 332

21.4 Design of Smart Energy Management System 334

21.4.1 Design Approach 334

21.4.1.1 ML Algorithm 334

21.4.1.2 EMS Algorithm 334

21.4.2 Design Specifications 336

21.5 Result & Analysis 337

21.5.1 Introduction 337

21.5.2 ML Model Results 337

21.5.3 Web Page Results 337

21.5.4 Hardware Results 339

21.6 Conclusion 346

References 346

22 Mobile EV Charging Stations for Scalability of EV in the Indian Automobile Sector 349
Mohit Sharan, Ameesh K. Singh, Harsh Gupta, Apurv Malhotra, Muskan Karira, O.V. Gnana Swathika and Anantha Krishnan V.

22.1 Introduction 350

22.2 Methodology 350

22.2.1 Design Specifications 351

22.2.2 Block Diagrams 356

22.3 Result 357

22.4 Conclusions 358

Bibliography 358

About the Editors 361

Index 363

Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.

• Tecnologia das fontes de energia renovável e alternativa

direct energy; geothermal energy; nuclear energy; stream energy; wind energy; renewable resources; green energy types of energy; department of energy; energy conservation; electrical energy; renewable energy sources; biomass energy; energy efficiency; energy comparison; green power; tidal energy; sources of energy; renewable save energy; hydroelectric energy; gas and electric; energy resources; clean energy; light energy; non-renewable energy; energy management; electricity prices; sustainable energy; energy solutions; alternative sources of energy; solar panels; renewable energy; solar city; solar lights; solar power; solar battery charger; solar charger; solar cell; green energy; photovoltaic; free energy; sun power; solar panel cost; solar panel price; cheap electricity; non-renewable energy sources; energy crisis; energy consumption; natural energy; new energy; conserve energy; compare electricity prices; energy policy; energy bill; how to save energy; renewable energy companies; energy calculator; renewable sources