Get Private 1:1 Online Engineering

Thermodynamics Tutor

(Thermal science, Heat transfer, Power plants etc for Engineering students)

Ace your Exams & Homework

Top Tutors • Top Grades • 24X7 • Affordable  • #1 Thermodynamics Tutoring & Homework Help Service

#1 Engineering Thermodynamics Tutors

Don’t compromise your Grades! Start getting an A+  in your Exams and Homework with #1 Engineering Thermodynamics tutors who can help you with Heat transfer, Mass transfer, Internal combustion IC engines, Thermal engineering, HVAC refrigeration air conditioning, Gas dynamics, Power plant engineering, etc.

Jitendra S

Student’s Rating 4.92/5

Jitendra S Tutor Photo
Knowledge 97%
Speed 91%
Accuracy 94%
  • I am a Mechanical engineer, expert in Engineering Thermodynamics and many other subjects. Learn Thermo with me or send your questions on WhatsApp for Instant solutions.

Ankesh J

Student’s Rating 4.86/5

Ankesh J tutor Photo
Knowledge 92%
Speed 100%
Accuracy 93%
  • I provide Engineering Thermodynamics tutoring and homework help service. Contact me for fast and accurate solutions or step by step explanations to master the subject.

Neeraj K

Student’s Rating 4.93/5

Neeraj K Tutor Photo
Knowledge 97%
Speed 95%
Accuracy 97%
  • Vastly experienced mechanical engineer is here to help you with your thermodynamics course. Get 1:1 private tutoring or instant homework help in thermo to boost your grades.


Aced my Thermo Exams and HW

I had my Final exam in Thermodynamics in a week when I contacted MEB tutors. They helped me with my previous exam questions and also taught me questions that may be asked in the exam. Did some HW too. I got an A+ in Exam and HW both. So awesome!!!


Couldn’t have asked for more

I was impressed by the quality of tutors at My Engineering Buddy from my first thermodynamics session itself. It only got better with time. Their help proved invaluable for me to understand the fundamentals and get good grades.

University of Colorado

Sincere tutors and professional organization

I got much more value than what I paid as money from the thermodynamics online tutoring sessions. The teachers utilize the time very well and teach with focus so that the student benefits from the session. They also have in-depth knowledge.

Ahmad Almutairi
Kuwait university

Engineering Thermodynamics Tutor

How is My Engineering Buddy an excellent service for online thermodynamics tutoring?

When you have the best tutors, you have the best learning. If you have the best education, you get top grades. That is precisely our motto at My Engineering Buddy. Our experienced thermodynamics tutors deliver the maximum value of any other online or offline tutoring service. As our tutors and student helpline service are available round the clock, you can learn at a time that fits your schedule.

How is the online thermodynamics tutoring by My Engineering Buddy unique?

Our experienced Mechanical engineering tutors make a conscious effort to teach the basic principles of thermodynamics. They also provide the students with a perspective of how to use computational engineering tools. They vary the pace of tutoring to bring about optimal learning. Based on the student’s needs, they blend theoretical concepts and problem-solving methods in a well-rounded manner. This approach nurtures students’ intuition and makes learning the subject matter much more accessible and with a solid base.

We conduct the virtual thermodynamics classes on an online whiteboard. It supports close interaction with the tutor and helps students get the most out of their sessions. The only requirements from your side are a high-speed internet connection and a laptop or tablet computer. The tutoring fee is affordable and delivers excellent value-for-money. The tutors are dedicated, and the quality of tutoring is unmatched. You will see it in action from your first session itself. As our experienced tutors work with you and help you gain knowledge and confidence, you will cruise through the classwork and understand the study materials so much better than before.

How is My Engineering Buddy so confident of the performance of its tutors?

The student’s success is the tutor’s success. Our team of tutors has proved itself over the years. They create a customized learning framework focusing on building your strengths and working on areas that require more labor. It is unlike a crowded classroom scenario where many students lose their way due to the lack of attention paid to an individual. Our tutors prioritize improvement in your academic performance over everything else. They understand the importance of studying a subject with short, medium, and long-term goals in mind. For example, the short-term goal usually is getting good grades. In contrast, the long-term goal typically is professional success later in one’s career.

Students from which countries and institutions approach My Engineering Buddy for online thermodynamics tutoring classes?

We have undergraduate and graduate students from many countries learning thermodynamics from our experts. We have students from University College London, Fairfield University, Syracuse University, Curtin University, Sultan Qaboos University, American University of the Middle East, and many more with tutoring sessions, homework help, and project and lab reports. We have students from almost all parts of the globe, including Oman, the UAE, Kuwait, the UK, many countries in Europe, and the USA. They contact us using the WhatsApp button on our website to book online thermodynamics tutoring sessions.

Which thermodynamics textbooks are the primary references for the tutors to conduct online classes?

Our tutors conduct the sessions based on your preferred textbooks and tools. However, most of the students follow classic books, including the ones listed below. Suppose you want the tutor to teach you and solve problems from any other thermodynamics textbook. In that case, you can let our student helpline know at the time of booking the session:

Thermodynamics: an Engineering Approach by Yunus A. Çengel, Reno, Michael A. Boles, and Mehmet Kanoğlu

Thermodynamics: Foundations and Applications (Dover Civil and Mechanical Engineering) by Elias P. Gyftopoulos and Gian Paolo Beretta

What is Engineering Thermodynamics?

Thermodynamics is a leading science and engineering subject dealing with heat energy and heat transfer. It has been an essential part of engineering programs worldwide, especially mechanical engineering and its sub-discipline, thermal engineering. It has wide usage for performing necessary calculations and framing concepts and designs of power generation systems, vehicles, and everyday household appliances, among many. It covers critical lessons like energy and entropy balances that serve as powerful analytical tools in physics and engineering.

Topics covered in Thermodynamics

We offer the following Engineering Thermodynamics tutoring services:

  • Live Online Homework/Assignment Help,
  • Live Online Tutoring Sessions,
  • Lab Reports & Projects

Get help with Thermodynamics homework given on

  • Mastering Engineering,
  • WebAssign,
  • WileyPlus,
  • McGraw Hill Connect
  • Blackboard,
  • Canvas,
  • Moodle etc.

A quick list of topics with which our engineering Thermodynamics tutors can help you is as below:

  • Thermodynamics and Energy
  • Properties of a System
  • Systems and Control Volumes
  • Density and Specific Gravity
  • The State Postulate
  • State and Equilibrium
  • Temperature and the Zeroth Law of Thermodynamics
  • Processes and Cycles
  • The Steady-Flow Process
  • Temperature Scales
  • Pressure Measurement Devices
  • The Barometer, the Manometer, and other Pressure Measurement Devices
  • Pressure and its variation with depth
  • Energy, Energy Transfer, and General Energy Analysis
  • Forms of Energy
  • Energy Analysis
  • Mechanical Energy
  • Energy Transfer by Work
  • Electrical Work
  • Mechanical Forms of Work
  • Spring and Shaft Work
  • Energy Balance
  • The First Law of Thermodynamics
  • Energy Conversion Efficiencies
  • Mechanisms of Heat Transfer
  • The Greenhouse Effect: Global Warming and Climate Change
  • Properties of Pure Substances
  • Phases of a Pure Substance
  • Phase-Change Processes of Pure Substances
  • Compressed Liquid and Saturated Liquid
  • Saturation Temperature and Saturation Pressure
  • Saturated Vapor and Superheated Vapor
  • Property Diagrams for Phase-Change Processes
  • The P-v Diagram
  • The T-v Diagram
  • Enthalpy
  • van der Waals Equation of State
  • The Ideal-Gas Equation of State
  • Benedict-Webb-Rubin Equation of State
  • Beattie-Bridgeman Equation of State
  • Virial Equation of State
  • Energy Analysis of Closed Systems
  • Polytropic Process
  • Specific Heats
  • Internal Energy, Enthalpy, and Specific Heats of Ideal Gases
  • Energy Balance for Closed Systems
  • Specific Heat Relations of Ideal Gases
  • Mass and Energy Analysis of Control Volumes
  • Conservation of Mass Principle
  • Mass and Volume Flow Rates
  • Incompressible Flow
  • Flow Work and the Energy of a Flowing Fluid
  • Energy Transport by Mass
  • Total Energy of a Flowing Fluid
  • Nozzles and Diffusers
  • Throttling Valves
  • Turbines and Compressors
  • Mixing Chambers
  • Pipe and Duct Flow
  • Heat Exchangers
  • General Energy Equation
  • The Second Law of Thermodynamics
  • Heat Engines
  • Thermal Energy Reservoirs
  • Thermal Efficiency
  • Kelvin–Planck Statement
  • Coefficient of Performance
  • Refrigerators and Heat Pumps
  • Heat Pumps
  • Performance of Refrigerators, Air Conditioners, and Heat Pumps
  • The Second Law of Thermodynamics: Clausius Statement
  • The Carnot Cycle
  • The Carnot Principles
  • The Reversed Carnot Cycle
  • The Carnot Heat Engine
  • The Carnot Refrigerator and Heat Pump
  • The Thermodynamic Temperature Scale
  • Entropy
  • Internally Reversible Isothermal Heat Transfer Processes
  • Entropy and Entropy Generation in Daily Life
  • The Increase of Entropy Principle
  • Entropy Change of Pure Substances
  • Isentropic Processes
  • Entropy Change of Liquids and Solids
  • The T ds Relations
  • Entropy Balance
  • The Entropy Change of Ideal Gases
  • Isentropic Efficiency of Turbines, Steady-Flow Devices, Nozzles, and Compressors and Pumps
  • Entropy Change of a System
  • Mechanisms of Entropy Transfer
  • Entropy Generation Associated with a Heat Transfer Process
  • Reducing the Cost of Compressed Air
  • Exergy: Work Potential of Energy
  • Second-Law Efficiency
  • Reversible Work and Irreversibility
  • Exergy of a Fixed Mass: Nonflow or Closed System Exergy
  • Exergy Change of a System
  • Exergy of a Flow Stream: Flow (or Stream) Exergy
  • Exergy Transfer by Work, Heat, and Mass
  • The Decrease of Exergy Principle and Exergy Destruction
  • Exergy Balance for Steady-Flow Systems
  • Exergy Balance: Control Volumes
  • Second-Law Efficiency of Steady-Flow Devices
  • Gas Power Cycles
  • The Carnot Cycle and its Value in Engineering
  • Reciprocating Engines
  • Diesel Cycle: the Ideal Cycle for Compression-Ignition Engines
  • Otto Cycle: the Ideal Cycle for Spark-Ignition Engines
  • Brayton Cycle: the Ideal Cycle for Gas-Turbine Engines
  • Stirling and Ericsson Cycles
  • Development of Gas Turbines
  • Deviation of Actual Gas-Turbine Cycles from Idealized Ones
  • The Brayton Cycle with Intercooling, Reheating, and Regeneration
  • Ideal Jet-Propulsion Cycles
  • Second-Law Analysis of Gas Power Cycles
  • Vapor and Combined Power Cycles
  • Rankine Cycle: the Ideal Cycle for Vapor Power Cycles
  • The Ideal Regenerative Rankine Cycle
  • The Ideal Reheat Rankine Cycle
  • Energy Analysis of the Ideal Rankine Cycle
  • The Carnot Vapor Cycle
  • Deviation of Actual Vapor Power Cycles From Idealized Ones
  • Closed Feedwater Heaters
  • Open Feedwater Heaters
  • Combined Gas–Vapor Power Cycles
  • Second-Law Analysis of Vapor Power Cycles
  • Binary Vapor Cycles
  • Refrigeration Cycles
  • The Reversed Carnot Cycle
  • Refrigerators and Heat Pumps
  • Second-Law Analysis of Vapor Compression Refrigeration Cycle
  • The Ideal Vapor-Compression Refrigeration Cycle
  • Actual Vapor-Compression Refrigeration Cycle
  • Selecting the Right Refrigerant
  • Heat Pump Systems
  • Gas Refrigeration Cycles
  • Liquefaction of Gases
  • Absorption Refrigeration Systems
  • Thermoelectric Power Generation and Refrigeration Systems