Solar Cell Array Design by Rauschenbach Hans (16 results)

Hard Cover. Condition: Good. No Jacket. First Edition. From an academic library with the usual stamps etc. Tape repair to top of spine. This item is heavy and will attract postal surcharges.

Hardcover. Condition: Good. No Jacket. Missing dust jacket; Pages can have notes/highlighting. Spine may show signs of wear. ~ ThriftBooks: Read More, Spend Less.

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Hardcover. Condition: Good. No Jacket. First Edition. Ex-Library copy with typical library marks and stamps. Dust jacket missing. First edition, first printing. Shelf and handling wear to cover and binding, with general signs of previous use. Secure packaging for safe delivery.

Condition: New. In.

Condition: New.

Condition: New. pp. 572.

Taschenbuch. Condition: Neu. Solar Cell Array Design Handbook | The Principles and Technology of Photovoltaic Energy Conversion | Hans S. Rauschenbach | Taschenbuch | xix | Englisch | 2014 | Springer | EAN 9789401179171 | Verantwortliche Person für die EU: Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg, juergen[dot]hartmann[at]springer[dot]com | Anbieter: preigu.

Paperback. Condition: Brand New. reprint edition. 572 pages. 10.00x7.01x1.30 inches. In Stock.

Taschenbuch. Condition: Neu. Druck auf Anfrage Neuware - Printed after ordering - I Solar Cell Arrays.- 1 Array Systems.- Array Concepts.- 1¿1. Arrays and Batteries.- 1¿2. Arrays, Panels, Parts, and Components.- 1¿3. Array Types.- 1¿4. The Array as Part of the Power System.- 1¿5. The Array as a System.- 1¿6. Hybrid Systems 6 Historical Developments.- 1¿7. History of Terrestrial Arrays.- 1¿8. History of Space Arrays.- 1 ¿9. The Future of Solar Cell Arrays.- Array Applications.- 1¿10. Terrestrial Applications.- 1¿11. Space Applications.- 1¿12. Power from Space.- Array Systems Performance.- 1¿13. Array Ratings.- 1¿14. Terrestrial Flat-Plate Arrays.- 1¿15. Terrestrial Concentrator Arrays.- 1¿16. Space Flat-Hate Arrays.- 1¿17. Spinning Space Arrays.- 1¿18. Space Concentrator Arrays.- 1¿19. Space Array Orbital Performance.- 2 Array Analysis.- Analytical Concepts.- 2¿1. The Role of Analysis.- 2¿2. Atoms and Electrons.- 2¿3. Electric Charge.- 2¿4. Conductors.- 2¿5. Insulators.- 2¿6. Current.- 2¿7. Electric Field.- 2¿8. Potential and Voltage.- 2¿9. Electrical Circuits.- 2¿10. Sources and Generators.- 2¿11. Current Flow Convection.- 2¿12. Resistance and Resistors.- 2¿13. Ohm¿s Law.- 2¿14. Power.- 2¿15. Energy.- 2¿16. Capacitance and Capacitors.- 2¿17. Magnetism.- 2¿18. Inductance and Inductors.- 2¿19. AC and DC Current.- 2¿20. Impedance.- Circuit Analysis.- 2¿21. Circuit Modelling.- 2¿22. Circuit Simplifications.- 2¿23. Circuit Responses.- 2¿24. Circuit Equations.- 2¿25. Operating Points.- Semiconductors and Solar Cell Models.- 2¿26. Quantum Mechanics.- 2¿27. Semiconductor Materials.- 2¿28. Semiconductor Junctions.- 2¿29. Solar Cell Operation.- 2¿30. Solar Cell Equation.- 2¿31. Solar Cell DC Model.- 2¿32. Distributed Parameter Solar Cell Model.- 2¿33. Analytical Models for Computer Work.- 2¿34. Non-Analytical Computer Models.- 2¿35. Selecting the Proper Model.- 2¿36. Solar Cell AC Model.- 2¿37. Solar Cells in Parallel and Series.- 2¿38. Illuminated Arrays.- 2¿39. Partially Shadowed Cells in Parallel.- 2¿40. Partially Shadowed Cells in Series.- 2¿41. Solar Cell Strings with Shunt Diodes.- 2¿42. Shadowing Factors.- 2¿43. Nonilluminated Array Models.- 2¿44. Blocking Diode Models.- 2¿45. Reverse-Biased Solar Cells.- 2¿46. Power Dissipation in Reverse-Biased Solar Cells.- Array Performance Prediction.- 2¿47. Array Output Analysis.- 2¿48. Sequence of Shifting I¿V Curves.- 2¿49. Calculation of Angle of Incidence.- 2¿50. Calculation of Effective Solar Intensity.- 2¿51. Calculation of Cell and Array I¿V Curves.- Shadow Analysis.- 2¿52. Shadows 84 Thermal Analysis.- Thermal Analysis.- 2¿53. Heat Flow and Temperature.- 2¿54. Heat Transfer by Conduction.- 2¿55. Heat Transfer by Convection.- 2¿56. Heat Transfer by Radiation.- 2¿57. Electrical Heat Transfer Analogy.- 2¿58. Terrestrial Array Operating Temperatures.- Reliability.- 2¿59. Reliability and Failure Rates.- 2¿60. Failure Modes and Effects.- 2¿61. Reliability Models.- Orbital Analysis.- 2¿62. Spacecraft Motion in Orbit.- 2¿63. Simplified Orbit Theory.- 2¿64. Altitude in Elliptic Orbits.- 2¿65. Location in Space.- 2¿66. Illumination of the Orbit Plane.- 2¿67. The Sun Angle.- 2¿68. Solar Eclipses.- 3 Array Design.- Design Concepts.- 3¿1. The Design Process.- 3¿2. Design Phases.- 3¿3. Design Personnel.- 3¿4. Uncertainties and Risks.- 3¿5. Design Optimization.- 3¿6. Design Requirements, Criteria and Interfaces.- 3¿7. Policy Constraints.- 3¿8. Design Review.- 3¿9. Producibility and Cost.- 3¿10. Human Engineering.- Photovoltaic System Design.- 3¿11. Load Profile Development.- 3¿12. Illumination Profile Development.- 3¿13. Preliminary Array Sizing¿Area Method.- 3¿14. Preliminary Array Sizing-Cell Efficiency Method.- 3¿15. Preliminary Array Sizing-Cell Power Method.- Detailed Array Design.- 3¿16. Detailed Array Sizing.- 3¿17. Space Array Configuration Selection.- 3¿18. Number of Required Solar Cells.- 3¿19. Array Layout.- 3¿20. Array Wiring.- 3¿21. Hot Spot Design Considerations.- 3¿22. Designing for Reliability.- 3¿23. High Vol.

Paperback. Condition: Like New. LIKE NEW. SHIPS FROM MULTIPLE LOCATIONS. book.

Hardcover. Condition: Good. Good. Dust Jacket NOT present. CD WILL BE MISSING. . SHIPS FROM MULTIPLE LOCATIONS. book.

Taschenbuch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -I Solar Cell Arrays.- 1 Array Systems.- Array Concepts.- 1¿1. Arrays and Batteries.- 1¿2. Arrays, Panels, Parts, and Components.- 1¿3. Array Types.- 1¿4. The Array as Part of the Power System.- 1¿5. The Array as a System.- 1¿6. Hybrid Systems 6 Historical Developments.- 1¿7. History of Terrestrial Arrays.- 1¿8. History of Space Arrays.- 1 ¿9. The Future of Solar Cell Arrays.- Array Applications.- 1¿10. Terrestrial Applications.- 1¿11. Space Applications.- 1¿12. Power from Space.- Array Systems Performance.- 1¿13. Array Ratings.- 1¿14. Terrestrial Flat-Plate Arrays.- 1¿15. Terrestrial Concentrator Arrays.- 1¿16. Space Flat-Hate Arrays.- 1¿17. Spinning Space Arrays.- 1¿18. Space Concentrator Arrays.- 1¿19. Space Array Orbital Performance.- 2 Array Analysis.- Analytical Concepts.- 2¿1. The Role of Analysis.- 2¿2. Atoms and Electrons.- 2¿3. Electric Charge.- 2¿4. Conductors.- 2¿5. Insulators.- 2¿6. Current.- 2¿7. Electric Field.- 2¿8. Potential and Voltage.- 2¿9. Electrical Circuits.- 2¿10. Sources and Generators.- 2¿11. Current Flow Convection.- 2¿12. Resistance and Resistors.- 2¿13. Ohm¿s Law.- 2¿14. Power.- 2¿15. Energy.- 2¿16. Capacitance and Capacitors.- 2¿17. Magnetism.- 2¿18. Inductance and Inductors.- 2¿19. AC and DC Current.- 2¿20. Impedance.- Circuit Analysis.- 2¿21. Circuit Modelling.- 2¿22. Circuit Simplifications.- 2¿23. Circuit Responses.- 2¿24. Circuit Equations.- 2¿25. Operating Points.- Semiconductors and Solar Cell Models.- 2¿26. Quantum Mechanics.- 2¿27. Semiconductor Materials.- 2¿28. Semiconductor Junctions.- 2¿29. Solar Cell Operation.- 2¿30. Solar Cell Equation.- 2¿31. Solar Cell DC Model.- 2¿32. Distributed Parameter Solar Cell Model.- 2¿33. Analytical Models for Computer Work.- 2¿34. Non-Analytical Computer Models.- 2¿35. Selecting the Proper Model.- 2¿36. Solar Cell AC Model.- 2¿37. Solar Cells in Parallel and Series.- 2¿38. Illuminated Arrays.- 2¿39. Partially Shadowed Cells in Parallel.- 2¿40. Partially Shadowed Cells in Series.- 2¿41. Solar Cell Strings with Shunt Diodes.- 2¿42. Shadowing Factors.- 2¿43. Nonilluminated Array Models.- 2¿44. Blocking Diode Models.- 2¿45. Reverse-Biased Solar Cells.- 2¿46. Power Dissipation in Reverse-Biased Solar Cells.- Array Performance Prediction.- 2¿47. Array Output Analysis.- 2¿48. Sequence of Shifting I¿V Curves.- 2¿49. Calculation of Angle of Incidence.- 2¿50. Calculation of Effective Solar Intensity.- 2¿51. Calculation of Cell and Array I¿V Curves.- Shadow Analysis.- 2¿52. Shadows 84 Thermal Analysis.- Thermal Analysis.- 2¿53. Heat Flow and Temperature.- 2¿54. Heat Transfer by Conduction.- 2¿55. Heat Transfer by Convection.- 2¿56. Heat Transfer by Radiation.- 2¿57. Electrical Heat Transfer Analogy.- 2¿58. Terrestrial Array Operating Temperatures.- Reliability.- 2¿59. Reliability and Failure Rates.- 2¿60. Failure Modes and Effects.- 2¿61. Reliability Models.- Orbital Analysis.- 2¿62. Spacecraft Motion in Orbit.- 2¿63. Simplified Orbit Theory.- 2¿64. Altitude in Elliptic Orbits.- 2¿65. Location in Space.- 2¿66. Illumination of the Orbit Plane.- 2¿67. The Sun Angle.- 2¿68. Solar Eclipses.- 3 Array Design.- Design Concepts.- 3¿1. The Design Process.- 3¿2. Design Phases.- 3¿3. Design Personnel.- 3¿4. Uncertainties and Risks.- 3¿5. Design Optimization.- 3¿6. Design Requirements, Criteria and Interfaces.- 3¿7. Policy Constraints.- 3¿8. Design Review.- 3¿9. Producibility and Cost.- 3¿10. Human Engineering.- Photovoltaic System Design.- 3¿11. Load Profile Development.- 3¿12. Illumination Profile Development.- 3¿13. Preliminary Array Sizing¿Area Method.- 3¿14. Preliminary Array Sizing-Cell Efficiency Method.- 3¿15. Preliminary Array Sizing-Cell Power Method.- Detailed Array Design.- 3¿16. Detailed Array Sizing.- 3¿17. Space Array Configuration Selection.- 3¿18. Number of Required Solar Cells.- 3¿19. Array Layout.- 3¿20. Array Wiring.- 3¿21. Hot Spot Design Considerations.- 3¿22. Designing for Reliability.

Condition: New. Print on Demand pp. 572 66:B&W 7 x 10 in or 254 x 178 mm Perfect Bound on White w/Gloss Lam.

Taschenbuch. Condition: Neu. This item is printed on demand - Print on Demand Titel. Neuware -I Solar Cell Arrays.- 1 Array Systems.- Array Concepts.- 1¿1. Arrays and Batteries.- 1¿2. Arrays, Panels, Parts, and Components.- 1¿3. Array Types.- 1¿4. The Array as Part of the Power System.- 1¿5. The Array as a System.- 1¿6. Hybrid Systems 6 Historical Developments.- 1¿7. History of Terrestrial Arrays.- 1¿8. History of Space Arrays.- 1 ¿9. The Future of Solar Cell Arrays.- Array Applications.- 1¿10. Terrestrial Applications.- 1¿11. Space Applications.- 1¿12. Power from Space.- Array Systems Performance.- 1¿13. Array Ratings.- 1¿14. Terrestrial Flat-Plate Arrays.- 1¿15. Terrestrial Concentrator Arrays.- 1¿16. Space Flat-Hate Arrays.- 1¿17. Spinning Space Arrays.- 1¿18. Space Concentrator Arrays.- 1¿19. Space Array Orbital Performance.- 2 Array Analysis.- Analytical Concepts.- 2¿1. The Role of Analysis.- 2¿2. Atoms and Electrons.- 2¿3. Electric Charge.- 2¿4. Conductors.- 2¿5. Insulators.- 2¿6. Current.- 2¿7. Electric Field.- 2¿8. Potential and Voltage.- 2¿9. Electrical Circuits.- 2¿10. Sources and Generators.- 2¿11. Current Flow Convection.- 2¿12. Resistance and Resistors.- 2¿13. Ohm¿s Law.- 2¿14. Power.- 2¿15. Energy.- 2¿16. Capacitance and Capacitors.- 2¿17. Magnetism.- 2¿18. Inductance and Inductors.- 2¿19. AC and DC Current.- 2¿20. Impedance.- Circuit Analysis.- 2¿21. Circuit Modelling.- 2¿22. Circuit Simplifications.- 2¿23. Circuit Responses.- 2¿24. Circuit Equations.- 2¿25. Operating Points.- Semiconductors and Solar Cell Models.- 2¿26. Quantum Mechanics.- 2¿27. Semiconductor Materials.- 2¿28. Semiconductor Junctions.- 2¿29. Solar Cell Operation.- 2¿30. Solar Cell Equation.- 2¿31. Solar Cell DC Model.- 2¿32. Distributed Parameter Solar Cell Model.- 2¿33. Analytical Models for Computer Work.- 2¿34. Non-Analytical Computer Models.- 2¿35. Selecting the Proper Model.- 2¿36. Solar Cell AC Model.- 2¿37. Solar Cells in Parallel and Series.- 2¿38. Illuminated Arrays.- 2¿39. Partially Shadowed Cells in Parallel.- 2¿40. Partially Shadowed Cells in Series.- 2¿41. Solar Cell Strings with Shunt Diodes.- 2¿42. Shadowing Factors.- 2¿43. Nonilluminated Array Models.- 2¿44. Blocking Diode Models.- 2¿45. Reverse-Biased Solar Cells.- 2¿46. Power Dissipation in Reverse-Biased Solar Cells.- Array Performance Prediction.- 2¿47. Array Output Analysis.- 2¿48. Sequence of Shifting I¿V Curves.- 2¿49. Calculation of Angle of Incidence.- 2¿50. Calculation of Effective Solar Intensity.- 2¿51. Calculation of Cell and Array I¿V Curves.- Shadow Analysis.- 2¿52. Shadows 84 Thermal Analysis.- Thermal Analysis.- 2¿53. Heat Flow and Temperature.- 2¿54. Heat Transfer by Conduction.- 2¿55. Heat Transfer by Convection.- 2¿56. Heat Transfer by Radiation.- 2¿57. Electrical Heat Transfer Analogy.- 2¿58. Terrestrial Array Operating Temperatures.- Reliability.- 2¿59. Reliability and Failure Rates.- 2¿60. Failure Modes and Effects.- 2¿61. Reliability Models.- Orbital Analysis.- 2¿62. Spacecraft Motion in Orbit.- 2¿63. Simplified Orbit Theory.- 2¿64. Altitude in Elliptic Orbits.- 2¿65. Location in Space.- 2¿66. Illumination of the Orbit Plane.- 2¿67. The Sun Angle.- 2¿68. Solar Eclipses.- 3 Array Design.- Design Concepts.- 3¿1. The Design Process.- 3¿2. Design Phases.- 3¿3. Design Personnel.- 3¿4. Uncertainties and Risks.- 3¿5. Design Optimization.- 3¿6. Design Requirements, Criteria and Interfaces.- 3¿7. Policy Constraints.- 3¿8. Design Review.- 3¿9. Producibility and Cost.- 3¿10. Human Engineering.- Photovoltaic System Design.- 3¿11. Load Profile Development.- 3¿12. Illumination Profile Development.- 3¿13. Preliminary Array Sizing¿Area Method.- 3¿14. Preliminary Array Sizing-Cell Efficiency Method.- 3¿15. Preliminary Array Sizing-Cell Power Method.- Detailed Array Design.- 3¿16. Detailed Array Sizing.- 3¿17. Space Array Configuration Selection.- 3¿18. Number of Required Solar Cells.- 3¿19. Array Layout.- 3¿20. Array Wiring.- 3¿21. Hot Spot Design Considerations.- 3¿22. Designing for Reliability.- 3¿.

Condition: New. PRINT ON DEMAND pp. 572.