Thermo-Fluid Engineering

Course title

40213100

Click to show questionnaire result at 2019

Course description

Understanding of heat and fluid transport phenomena is essential.
The two theories of fluid mechanics and thermodynamics are pragmatically lectured in this class, referring to case examples of applications.

Purpose of class

To acquire fundamentals of two mechanics theories, namely fluid mechanics and thermodynamics that underlie a creative engineering and design.　Furthermore it is also aimed at acquiring ability to apply the two theories to pragmatic issues on the basis of the above.

Goals and objectives

To be able to understand and explain the basics of three mechanics theories, namely fluid mechanics and thermodynamics.
To explain basic theorems such as continuity equations and Bernoulli's theorem in "Fluid mechanics". To explain the flow phenomenon and its effect.
To explain specific heat, the first law of thermodynamics, and the second law of thermodynamics In "thermodynamics". To explain basic cycle efficiency.

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	“Thermodynamics”: quantity of state, change in state and reversible/ irreversible process	Practice problem; Text book, page on 30 and 31.	100minutes
1.		Exercise	80minutes
2.	“Thermodynamics”: the first law of thermodynamics	Practice problem; Text book, page on 44.	100minutes
2.	“Thermodynamics”: the first law of thermodynamics	Exercise	80minutes
3.	“Thermodynamics” : the first law of thermodynamics and enthalpy and ideal gas	Practice problem; Text book, page on 52, 53 and 64.	100minutes
3.		Exercise	80minutes
4.	“Thermodynamics” : State change in quasi-static process and Mixture of ideal gases	Practice problem; Text book, page on 74 and 78.	100minutes
4.		Exercise	80minutes
5.	“Thermodynamics” : the second law of thermodynamics. and Carnot cycle and thermal efficiency	Practice problem; Text book, page on 95 and 102.	100minutes
5.			80minutes
6.	“Thermodynamics” :Entropy, and heat engine and gasoline engine	Practice problem; Text book, page on 117 and 129.	100minutes
7.	Mid-term examination and comment	Read the textbook thoroughly.	100minutes
7.	Mid-term examination and comment	Exercise	80minutes
8.	“Fluid mechanics” : Fluid properties and basic matters (SI unit, density, specific gravity, pressure, viscosity, surface tension, capillary action)	Practice problem; Text book, page on 8.	100minutes
8.		Exercise	80minutes
9.	“Fluid mechanics” : Hydrostatics (absolute pressure and gauge pressure, Pascal's principle, liquid depth and pressure, liquid column pressure gauge, buoyancy and Archimedean principle, force on a plane wall)	Practice problem; Text book, page on 23.	100minutes
9.		Exercise	80minutes
10.	“Fluid mechanics” : Foundation of fluid movement (steady flow and unsteady flow, streamlines and flow tubes, similarity law, Reynolds number etc.)	Practice problem; Text book, page on 31.	100minutes
10.		Exercise	80minutes
11.	“Fluid mechanics” : One-dimensional flow (continuous equation, Euler's equation of motion, Bernoulli's theorem, Tricheri's theorem, etc.)	Practice problem; Text book, page on 43.	100minutes
11.		Exercise	80minutes
12.	“Fluid mechanics” :Application of Bernoulli's theorem (Pitto tube, orifice, Venturi tube, etc.)	Practice problem; Text book, page on 52.	100minutes
12.		Exercise	80minutes
13.	“Fluid mechanics” : ・ The law of momentum ・ Circular flow (laminar flow, turbulent flow, etc.)	Practice problem; Text book, page on 62 and 92.	100minutes
13.		Exercise	80minutes
14.	Final term examination and comments on the exam.	Read the textbook thoroughly.	100minutes
Total.	-	-	2360minutes

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Mid-term examination	Final term examination	Report	Total.
1.	10%	10%	10%	30%
2.	30%	0%	5%	35%
3.	0%	30%	5%	35%
Total.	40%	40%	20%	-

Evaluation method and criteria

There will be report (20marks), two main exams: midterm (40marks) and final (40marks). , totally 100 marks. Passing mark; more than 60 marks, failing mark; less than 60marks.

Textbooks and reference materials

Text book: “専門基礎ライブラリー　熱力学　事例でわかる考え方と使い方”，著者　金原監修、君島ら，実教出版

Text book: “図解によるわかりやすい流体力学”，著者　中林・山口，森北出版株式会社

Prerequisites

It is preferable to review high school physics and mathematics.

Office hours and How to contact professors for questions