Steam Tables: With SI Units, 1/e

Performance analysis of boilers, steam turbines, plant process and other mechanical equipment connected with power generation require the thermodynamic data and transport properties of water and steam which are essential for the design, performance specifications.
The Tables contain thermodynamic properties of water and steam which covers the whole practical range being practiced in power plants and process industries. The salient feature of this table is that the properties of steam have been given for a wide range of temperatures and pressures.
The subject matter is intended for practicing Engineers in power plants and process industries and students pursuing undergraduate and postgraduate courses in Engineering. It also helps the students preparing for AMIE and competitive examinations such as GATE, IES, PSU and civil services etc.

• Presents thermodynamic data and transport properties of water/steam catering to the need of power plants and process industries.
  
• Helps in translating the properties for numerical and real-world problems.
  
• Provides a wide range of temperatures and pressures for the properties of steam spread across 60 tables.
  
• All tables are well laid out and sent in two colours.
  
• Includes Mollier’s chart.
  

1. Saturation Temperatures and Properties of Water and Steam
2. Saturation Pressures and Properties of Water and Steam
3. Superheated Steam Properties (Pressure Base)
3.1. Pressure =11.0 bar and saturation temperature, Tsat = 184.062 °C
3.2. Pressure =12.0 bar and saturation temperature, Tsat = 187.957 °C
3.3. Pressure =13.0 bar and saturation temperature, Tsat = 191.605 °C
3.4. Pressure =14.0 bar and saturation temperature, Tsat = 195.039 °C
3.5. Pressure =15.0 bar and saturation temperature, Tsat = 198.287 °C
3.6. Pressure =16.0 bar and saturation temperature, Tsat = 201.37 °C
3.7. Pressure =17.0 bar and saturation temperature, Tsat = 204.306 °C
3.8. Pressure =18.0 bar and saturation temperature, Tsat = 207.111 °C
3.9. Pressure =19.0 bar and saturation temperature, Tsat = 209.798 °C
3.10. Pressure =20.0 bar and saturation temperature, Tsat = 212.377 °C
3.11. Pressure =21.0 bar and saturation temperature, Tsat = 214.857 °C
3.12. Pressure = 22.0 bar and saturation temperature, Tsat = 217.248 °C
3.13. Pressure =23.0 bar and saturation temperature, Tsat = 219.556 °C
3.14. Pressure = 24.0 bar and saturation temperature, Tsat = 221.788 °C
3.15. Pressure = 25.0 bar and saturation temperature, Tsat = 223.95 °C
3.16. Pressure = 26 bar and saturation temperature, Tsat = 226.045 °C
3.17. Pressure =27 bar and saturation temperature, Tsat = 228.079 °C
3.18. Pressure = 28 bar and saturation temperature, Tsat = 230.056 °C
3.19. Pressure = 29 bar and saturation temperature, Tsat = 231.979 °C
3.20. Pressure = 30.0 bar and saturation temperature, Tsat = 233.853 °C
3.21. Pressure = 31.0 bar and saturation temperature, Tsat = 235.678 °C
3.22. Pressure = 32.0 bar and saturation temperature, Tsat = 237.459 °C
3.23. Pressure = 33.0 bar and saturation temperature, Tsat = 239.198 °C
3.24. Pressure = 34.0 bar and saturation temperature, Tsat = 240.896 °C
3.25. Pressure = 35.0 bar and saturation temperature, Tsat = 242.557 °C
3.26. Pressure = 36.0 bar and saturation temperature, Tsat = 244.182 °C
3.27. Pressure = 37.0 bar and saturation temperature, Tsat = 245.772 °C
3.28. Pressure = 38.0 bar and saturation temperature, Tsat = 247.33 °C
3.29. Pressure = 39.0 bar and saturation temperature, Tsat = 248.857 °C
3.30. Pressure = 40.0 bar and saturation temperature, Tsat = 250.354 °C
3.31. Pressure = 42.0 bar and saturation temperature, Tsat = 253.264 °C
3.32. Pressure = 44.0 bar and saturation temperature, Tsat = 256.07 °C
3.33. Pressure = 46.0 bar and saturation temperature, Tsat = 258.78 °C
3.34. Pressure = 48.0 bar and saturation temperature, Tsat = 261.401 °C
3.35. Pressure = 50.0 bar and saturation temperature, Tsat = 263.94 °C
3.36. Pressure = 52.0 bar and saturation temperature, Tsat = 266.403 °C
3.37. Pressure = 54.0 bar and saturation temperature, Tsat = 268.794 °C
3.38. Pressure = 56.0 bar and saturation temperature, Tsat = 271.119 °C
3.39. Pressure = 58.0 bar and saturation temperature, Tsat = 273.382 °C
3.40. Pressure = 60.0 bar and saturation temperature, Tsat = 275.585 °C
3.41. Pressure = 65.0 bar and saturation temperature, Tsat = 280.858 °C
3.42. Pressure = 70.0 bar and saturation temperature, Tsat = 290.536 °C
3.43. Pressure = 75.0 bar and saturation temperature, Tsat = 290.536 °C
3.44. Pressure = 80.0 bar and saturation temperature, Tsat = 295.008 °C
3.45. Pressure = 85.0 bar and saturation temperature, Tsat = 299.271 °C
3.46. Pressure = 90.0 bar and saturation temperature, Tsat = 303.345 °C
3.47. Pressure = 95.0 bar and saturation temperature, Tsat = 307.249 °C
3.48. Pressure = 100.0 bar and saturation temperature, Tsat = 310.998 °C
3.49. Pressure = 110.0 bar and saturation temperature, Tsat = 318.079 °C
3.50. Pressure = 120.0 bar and saturation temperature, Tsat = 324.675 °C
3.51. Pressure = 130.0 bar and saturation temperature, Tsat = 330.854 °C
3.52. Pressure = 140.0 bar and saturation temperature, Tsat = 336.666 °C
3.53. Pressure = 150.0 bar and saturation temperature, Tsat = 342.155 °C
3.54. Pressure = 160.0 bar and saturation temperature, Tsat = 347.356 °C
3.55. Pressure = 170.0 bar and saturation temperature, Tsat = 352.294 °C
3.56. Pressure = 180.0 bar and saturation temperature, Tsat = 356.993 °C
3.57. Pressure = 190.0 bar and saturation temperature, Tsat = 361.473 °C
3.58. Pressure = 200.0 bar and saturation temperature, Tsat = 107.109365.747°C
3.59. Pressure = 210.0 bar and saturation temperature, Tsat = 369.826 °C
3.60. Pressure = 220.0 bar and saturation temperature, Tsat = 373.706 °C

B.B. Arora :- Dr. B.B. Arora is currently working as faculty member in Delhi Technological University (Formerly Delhi College of Engineering). He has around 30 years of teaching, research and industrial experience. He has taught undergraduate, postgraduate and Research scholars and has guided a number of dissertations and thesis and published numerous research papers in National and International journals of repute. He has successfully completed many consultancy and industrial Research Projects.


Vipin :- Dr. Vipin is currently working as faculty member in Delhi Technological University (Formerly Delhi College of Engineering). He has more than 20 years of teaching, research and industrial experience. He has taught undergraduate, postgraduate and Research scholars. He has guided a number of dissertations and thesis and published numerous research papers in National and International journals of repute.


Akhilesh Arora :- Dr. Akhilesh Arora is an Assistant Professor in the Department of Mechanical Engineering at Delhi Technological University (erstwhile Delhi College of Engineering) Delhi since 2004. Prior to joining Delhi College of Engineering, he worked at College of Military Engineering, Pune in the capacity of Lecturer for two years. He has also served as Associate professor and Head of Mechanical and Automation Engineering Department at Indira Gandhi Delhi Technical University of Women, Delhi during the period from 2012 to 2014. He obtained his Ph.D. and Master’s Degree from the Indian Institute of Technology, Delhi in the year 2010 and 1997 respectively. His research areas are Refrigeration and Air Conditioning, Thermal Science and Engineering; Energy Conservation and Waste Heat Recovery. He has published number of research papers in International and national journals. Dr. Arora is an active member of ASHRAE and ISHRAE.