Encyclopedia of Fluid Mechanics

Ethirajan Rathakrishnan is professor of Aerospace Engineering at the Indian Institute of Technology Kanpur, India. He is well known internationally for his research in the area of high-speed jets. The limit for the passive control of jets, called the Rathakrishnan Limit, is his contribution to the field of jet research, and the concept of breathing blunt nose (BBN), which simultaneously reduces the positive pressure at the nose and increases the low pressure at the base is his contribution to drag reduction at hypersonic speeds. Positioning the twin-vortex Reynolds number at around 5000, by changing the geometry from cylinder, for which the maximum limit for the Reynolds number for positioning the twin-vortex was found to be around 160, by von Karman, to flat plate, is his addition to vortex flow theory. He has published a large number of research articles in many reputed international journals. He is a Fellow of many professional societies including the Royal Aeronautical Society. Rathakrishnan serves as the Editor-in-Chief of the International Review of Aerospace Engineering (IREASE) and International Review of Mechanical Engineering (IREME) journals. He has authored the following books: Gas Dynamics, 7th ed. (PHI Learning, New Delhi, 2020); Fundamentals of Engineering Thermodynamics, 2nd ed. (PHI Learning, New Delhi, 2005); Fluid Mechanics: An Introduction, 4th ed. (PHI Learning, New Delhi, 2022); Gas Tables, 3rd ed. (Universities Press, Hyderabad, India, 2012); Theory of Compressible Flows (Maruzen Co., Ltd. Tokyo, Japan, 2008); Gas Dynamics Work Book, 2nd ed. (Praise Worthy Prize, Napoli, Italy, 2013); Elements of Heat Transfer (CRC Press, Taylor & Francis Group, Boca Raton, Florida, USA, 2012); Theoretical Aerodynamics (John Wiley, New Jersey, USA, 2013); High Enthalpy Gas Dynamics (John Wiley & Sons Inc., 2015); Dynamique Des Gaz (Praise Worthy Prize, Napoli, Italy, 2015); and Instrumentation, Measurements and Experiments in Fluids, 2nd ed. (CRC Press, Taylor & Francis Group, Boca Raton, Florida, USA, 2017), Helicopter Aerodynamics, (PHI Learning, New Delhi, 2019); Applied Gas Dynamics 2nd ed. (John Wiley & Sons Inc., 2019); Introduction to Aerospace Engineering : Basic Principles of Flight, Wiley, (New Jercy, 2021); Japan, (Praise Worthy Prize, Napoli, Italy, 2021); Mind Power : The Sixth Sense, (Routlege, Taylor and Francis Group, UK, 2022).

Chapter 1
Ablation to Axisymmetric flow

Chapter 2
Backflow to Bypass Ratio

Chapter 3
Calcium to Cylindrical rectangular Aerofoil

Chapter 4
d’Alembert’s Paradox to Dynamics

Chapter 5
Eckert number to Extratropical cyclone

Chapter 6
Factors influencing Pitot-static tube performance to Fusion pyrometers

Chapter 7
Gas to Gyroscopic effect

Chapter 8
Hail to Hypothesis

Chapter 9
ICBM to Isotopes

Chapter 10
Jelly to Joule-Thompson effect

Chapter 11
Kaplan turbine to Kutta-Joukowski transformation

Chapter 12
Lactic acid to Lungs

Chapter 13
Mach to Munk’s theorem of stagger

Chapter 14
Natural gas to Nusselt number

Chapter 15
OASPL to Ozone hole

Chapter 16
Pacific Ocean to Pyrometers

Chapter 17
Quality of energy to Quasi-one-dimensional flow

Chapter 18
Radar to Runway

Chapter 19
Sake to System

Chapter 20
Tail-First Aircraft to Typhoon

Chapter 21
Ultrapure water to Upper critical Reynolds number

Chapter 22
Vacuum cleaner to Vorticity

Chapter 23
Wake to Working fluid

Chapter 24
Xenon

Chapter 25
Yacht to Yoghurt

Chapter 26
Zap flap to Zone of action