工業熱力学Ⅱ

Course Information

College	Toyama College	Year	2020
Course Title	工業熱力学Ⅱ
Course Code	0061	Course Category	Specialized / Compulsory
Class Format	Lecture	Credits	School Credit: 1
Department	Department of Maritime Technology	Student Grade	3rd
Term	Second Semester	Classes per Week	2
Textbook and/or Teaching Materials	『わかりやすい熱力学（第3版）』，森北出版株式会社，一色尚次・北山直方共著
Instructor	Kyoden Tomoaki

Course Objectives

In recent years of technology development, there is a viewpoint as how to realize a sustainable society, not as a pursuit of performance but as conscious of the global environment. We can understand thermodynamics as "scholarship to cultivate fundamental thinking of energy problem", focusing on the second law of thermodynamics, heat and work conversion by steam.

Rubric

	Ideal Level of Achievement (Very Good)	Standard Level of Achievement (Good)	Unacceptable Level of Achievement (Fail)
Explain the adiabatic expansion of steam passing inside the turbine and the thermal drop due to it.	Explain the adiabatic expansion of steam passing inside the turbine and the thermal drop due to it.	The adiabatic expansion of the steam passing inside the turbine and the thermal drop due to it can be known.	Insufficient understanding of the adiabatic expansion of the steam passing through the inside of the turbine and the thermal drop caused thereby is insufficient.
You can explain the characteristics of Rankine cycle, regeneration cycle, reheat cycle and reheat regeneration cycle.	You can explain the characteristics of Rankine cycle, regeneration cycle, reheat cycle and reheat regeneration cycle.	Rankine cycle, regeneration cycle, reheat cycle, reheat regeneration cycle characteristics are known.	You do not know the characteristics of Rankine cycle, regeneration cycle, reheat cycle, reheat regeneration cycle.
It is possible to recognize and calculate various performances (heat efficiency, steam consumption amount, heat consumption rate, etc.) on the steam turbine.	It is possible to recognize and calculate various performances (heat efficiency, steam consumption amount, heat consumption rate, etc.) on the steam turbine.	You are able to recognize various performances (heat efficiency, steam consumption amount, heat consumption rate, etc.) on the steam turbine.	It can not recognize various performances (heat efficiency, steam consumption amount, heat consumption rate, etc.) on the steam turbine.
You can explain the second law of thermodynamics.	You can explain the second law of thermodynamics.	You can understand the second law of thermodynamics.	You do not know the second law of thermodynamics.
You can recognize the state change of the Carnot cycle and calculate the thermal efficiency.	You can recognize the state change of the Carnot cycle and calculate the thermal efficiency.	You can see the state change of the Carnot cycle.	You do not know the state change of the Carnot cycle.
Learn the definition of entropy and explain the change in entropy.	Learn the definition of entropy and explain the change in entropy.	Learn the definition of entropy and understand the change in entropy.	You do not know about entropy change.

Assigned Department Objectives

MCCコア科目 See

Teaching Method

Outline:

Understand the various aspects of the heat engine cycle, mainly the Carnot cycle, the second law of thermodynamics, the fundamental properties of steam.

Style:

Written exams, assign tasks. Distribution test 70%, quiz and task 30%, overall rating 60% or more approved

Notice:

3 subjects (3)
Ⅱ thermodynamics
(1) heat and energy
(2) the nature of the ideal gas
(3) Heat transfer
(4) Combustion of fuel

Course Plan

			Theme	Goals
2nd Semester
	3rd Quarter
		1st	guidance About cycle
		2nd	Carnot cycle
		3rd	Basic cycle of heat engine	Understand Otto cycle, diesel cycle, Rankin cycle, Brayton cycle
		4th	Entropy concept (1)	From the Carnot cycle you can understand the concept of entropy
		5th	Entropy concept (2)	I can understand the meaning of entropy
		6th	Entropy concept (3)	Explain the principle of increase in entropy from familiar phenomena
		7th	Intermediate test
		8th	Basic properties of steam	Basic properties of water (steam)
	4th Quarter
		9th	Characteristics of steam	Understand wet saturated steam, dry saturated steam, superheated steam
		10th	Steam table and steam diagram (1)	Wet saturated steam, dry saturated steam, superheated steam
		11th	Steam table and steam diagram (2)	Wet saturated steam, dry saturated steam, superheated steam
		12th	Playback cycle (1)	Outline of playback cycle
		13th	Playback cycle (2)	Construction of playback cycle
		14th	Playback cycle (3)	The state quantity of the working fluid in the regeneration cycle can be calculated
		15th	Playback cycle (4)	The thermal efficiency of the regeneration cycle can be calculated
		16th	Final exam

Evaluation Method and Weight (%)

	Examination	Presentation	Mutual Evaluations between students	Behavior	Portfolio	Other	Total
Subtotal	210	15	30	30	15	0	300
Basic Ability	70	5	10	10	5	0	100
Technical Ability	70	5	10	10	5	0	100
Interdisciplinary Ability	70	5	10	10	5	0	100