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Advances in Clean Energy Technologies [Minkštas viršelis]

Edited by (School of Engineering and Technology Central Queensland University, Melbourne Campus, VIC-3000, Australia)
  • Formatas: Paperback / softback, 520 pages, aukštis x plotis: 229x152 mm, weight: 880 g, Approx. 150 illustrations; Illustrations, unspecified
  • Išleidimo metai: 08-Sep-2020
  • Leidėjas: Academic Press Inc
  • ISBN-10: 0128212217
  • ISBN-13: 9780128212219
Kitos knygos pagal šią temą:
Advances in Clean Energy TechnologiesDidesnis paveikslėlis
  • Formatas: Paperback / softback, 520 pages, aukštis x plotis: 229x152 mm, weight: 880 g, Approx. 150 illustrations; Illustrations, unspecified
  • Išleidimo metai: 08-Sep-2020
  • Leidėjas: Academic Press Inc
  • ISBN-10: 0128212217
  • ISBN-13: 9780128212219
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9780128212219.html
Raktažodžiai:

Advances in Clean Energy Technologies presents the latest advanced approaches toward a cleaner and more sustainable energy environment. Editor Kalam Azad and his team of expert contributors focus on recent developments in the field of clean energy technologies, sustainable zero emission resources, energy efficiency and environmental sustainability, as well as clean energy policy and markets. This well-rounded reference includes an authoritative view on control and storage solutions specific to medium and large-scale industries, advanced approaches to modeling, and experimental investigations on clean energy technologies.

Those working in and researching clean energy and sustainability will obtain detailed understanding of a variety of zero emission energy production and conversion approaches, as well as important socio-economic and environmental considerations that can be applied to their own unique power generation settings.

  • Presents an exclusive analysis on advanced approaches of modeling and experimental investigations of clean energy technologies, including solar, wind, ocean, and hybrid systems
  • Includes an authoritative and cross-disciplinary view on energy policy and energy markets
  • Helps readers develop an understanding of concepts and solutions to global issues surrounding sustainability in medium-large scale energy industries
  • Offers detailed understanding of a variety of zero emission energy production and conversion approaches
Contributors xi
About the Editor xiii
Preface xv
Section A Solar energy
1 Sun: The main source of ground energy and power
1(18)
Md. Sawkat Ali
Rashedul Amin Tuhin
M. Saddam Hossain Khan
1.1 Introduction
3(1)
1.2 Solar energy
3(6)
1.3 Wind energy
9(4)
1.4 Wave energy
13(2)
1.5 Conclusions
15(1)
References
15(4)
2 Solar PV DC nanogrid dynamic modeling applying the polynomial computational method for MPPT
19(70)
Maged F. Bauomy
Haytham Gamal
Adel A. Shaltout
2.1 Introduction
22(3)
2.2 Enhanced photovoltaic diode model
25(12)
2.3 Polynomial computational method for MPPT of PV
37(21)
2.4 Solar DC residential branch system applying PCM for MPPT at different modes of operation
58(10)
2.5 PV DC nanogrid dynamic model using PCM controller
68(13)
2.6 Conclusion
81(2)
Appendix: Nanogrid parameters
83(1)
References
84(5)
3 Solar energy systems: An approach to zero energy buildings
89(82)
Alibakhsh Kasaeian
Hamid Sarrafha
3.1 Introduction
91(5)
3.2 ZEB definition framework and design strategies
96(8)
3.3 Passive solar design aspects
104(30)
3.4 Building integrated photovoltaic systems
134(20)
3.5 Solar-thermal systems
154(12)
3.6 Summary
166(2)
References
168(3)
4 Performance assessment of solar powered hybrid solid desiccant and dehumidification integrated thermally cooling system using TRNSYS
171(36)
D.B. Jani
4.1 Introduction
172(4)
4.2 Experimental setup
176(1)
4.3 Measurements
177(1)
4.4 Data reduction and uncertainty analysis
178(2)
4.5 Results and discussion
180(4)
4.6 Prediction of system performance by use of TRNSYS simulation
184(14)
4.7 Conclusions
198(1)
References
199(8)
Section B Wind energy
5 Advancement in remote sensing of wind energy
207(28)
Prem Kumar Chaurasiya
Abul Kalam Azad
Vilas Warudkar
Siraj Ahmed
5.1 Introduction
209(6)
5.2 Recent development
215(10)
5.3 Economic analysis: A case study
225(5)
5.4 Conclusion and recommendations
230(1)
Acknowledgment
230(1)
References
231(2)
Further reading
233(2)
6 Maximum output power of wind energy system combined with battery energy storage using rule-based control
235(60)
Haytham Gamal
Adel A. Shaltout
6.1 Introduction
236(3)
6.2 Double-fed induction generator system description
239(1)
6.3 Wind turbine modeling
240(2)
6.4 Double-fed induction generator steady-state equivalent circuit
242(10)
6.5 Double-fed induction generator steady-state stability
252(4)
6.6 Dynamical model for lead acid battery
256(8)
6.7 Optimal rotor excitation voltage
264(10)
6.8 Overall performance
274(1)
6.9 Rule-based control concept
275(1)
6.10 BESS dispatching under rule-based control technique
275(10)
6.11 Conclusion
285(5)
Appendix A DFIG parameter
290(1)
Appendix B Specification of wind turbine
291(1)
Appendix C Battery module parameter
291(1)
References
291(4)
Section C Hydroenergy
7 Efficient hydroenergy conversion technologies, challenges, and policy implication
295(24)
Pobitra Haider
Arun Teja Doppalapudi
Abul Kalam Azad
M.M.K. Khan
7.1 Introduction
295(2)
7.2 Global scenario and prospects of hydroenergy
297(1)
7.3 Technologies of hydroenergy conversion
298(7)
7.4 Technical challenges and possible solutions
305(2)
7.5 Techno-economic analysis of hydroenergy
307(3)
7.6 Socio-environmental effects of hydroenergy applications
310(1)
7.7 Policy implication and recommendations to endorse hydroenergy
311(1)
7.8 Conclusion and recommendations
312(1)
References
313(6)
8 Development of power generation from oceanic waves
319(30)
Md. Sawkat All
Rashedul Amin Tuhin
M. Saddam Hossain Khan
Md. Hasanuzzaman
8.1 Introduction
319(1)
8.2 Linear electrical generator
320(4)
8.3 Superconducting linear generator
324(4)
8.4 Special PMs in linear generator (LG)
328(6)
8.5 Magnetic cores in linear generator
334(4)
8.6 Dual port linear generator
338(4)
8.7 Discussion and conclusions
342(1)
References
343(6)
Section D Hybrid energy system
9 Energy management techniques to enhance DC-bus voltage transient stability and power balancing issues for islanded DC microgrids
349(28)
Suharto Kumar Ghosh
Tushar Kanti Roy
Md. Ahu Hanif Pramanik
Md. Sawkat Ali
9.1 Introduction
349(4)
9.2 The proposed DC microgrid structure
353(11)
9.3 Proposed energy management control strategy
364(3)
9.4 Performance evaluation of EMS control strategy
367(5)
9.5 Conclusions
372(1)
References
372(5)
10 The importance of energy storage in solar and wind energy, hybrid renewable energy systems
377(28)
Ahmet Aktas
10.1 Introduction
377(1)
10.2 Power generation profile of solar and wind energy
377(4)
10.3 The importance of energy storage in RES
381(6)
10.4 Hybrid renewable energy systems
387(11)
10.5 Conclusion and recommendation
398(1)
References
399(6)
11 Hybrid solar power system
405(46)
Jie Sun
11.1 Introduction
405(10)
11.2 Point-line-focus hybrid CSP system: A case study
415(8)
11.3 CSP and CPV hybrid power system: A case study
423(6)
11.4 Solar-aided coal-fired hybrid power system: A case study
429(15)
11.5 Conclusion and perspective
444(1)
Acknowledgment
444(1)
References
444(7)
Section E Clean energy policy and market
12 `Policy and market drivers for advancing clean energy
451(36)
Steven Dahlke
John Sterling
Colin Meehan
12.1 Introduction
451(2)
12.2 Early stimulus policies
453(9)
12.3 Present day: Economic competitiveness
462(4)
12.4 Looking forward: Integrating high clean energy levels
466(4)
12.5 Conclusion
470(1)
Acknowledgment
471(1)
References
471(16)
Index 487
Dr. Kalam Azad is a Lecturer at CQUniversity, Melbourne, Australia. His field of interest is renewable energy technologies, energy conversion, and their relevant industrial applications. He has published over a hundred scientific articles, including six edited books with Elsevier. The recognition of his research has been proved through a high number of citations and h-index both in Scopus and Google Scholar. He also works as a Section Editor: Sustainable Energy and Energies journal. Currently, he is a member of different professional bodies throughout the world.