Course Module

Department of Agricultural Engineering Faculty of Agricultural Technology Universitas Brawijaya

Module name Power in Agriculture 2 Module level Undergraduate program

Code TPE4242

Subtitle -

Courses -

Semester(s) 8 Person

responsible for the module

Ir. Ekoyanto Pudjiono, M.Eng.Sc.

Lecturer 1. Ir. Ekoyanto Pudjiono, M.Eng.Sc.

2. Dr.Ir. Gunomo Djoyowasito, MS 3. Ir. Ary Mustofa Ahmad, MP Language Bahasa Indonesia, English Relation to

curriculum

Compulsory/elective Type of

teaching, contact hours

Contact hours and class size separately for each teaching method: lecture, lesson, practical, project, seminar etc.

Workload 136 hours/semester

Lecture, Exercise, Laboratory session, and private study Credit points 3 SKS / 5 ECTS

Requirements according to the

examination regulations

-

Recommende d

prerequisites

TPE 4234

Module objectives/int ended learning outcomes

ILO-1: An ability to use engineering principles in designing technology products related to the field of agricultural engineering science

ILO-3: An ability to manage and utilize natural resources (agriculture and environment) and the supporting resources (human resources, infrastructure, etc.) in an optimal way and sustainable

Objectives: This course explains the classification of engine power in

agriculture, including the history of the development of combustion motors.

Application of thermodynamic principles to combustion engines. Design, construction and work systems of functional parts on both diesel and gasoline engines. Evaluate the performance of the combustion engine.

Knowledge: familiarity with combustion engines in agriculture

Skills: cognitive – Apply design, construction, and work systems of functional parts on both diesel and gasoline engines. Phsycomotoric - practical abilities to design, construction, and work systems of functional parts on both diesel and gasoline engines

Competences: Student able to evaluate the performance of the combustion engine

Content Courses:

1) Introduction to power in agriculture and fuel motor construction

2) The basic theory related to the working principle of the piston combustion motor

3) Introduction of valve system, fuel, and air 4) Introduction of the electricity system 5) Basic cooling and lubrication system

6) The basic theory related to the analysis of the internal combustion motor efficiency based on the ideal cycle and the actual cycle

7) Introduction to the performance of the internal combustion motor 8) Agricultural tractor simulation

9) Basic theory related to coupling and transmission power forwarding 10) Introduction to differentials and PTOs

11) Introduction of hydraulic and linkages

12) Introduction of wheel type, rolling resistance and wheel slip 13) The basic theory of tensile

14) Basic theory related to tractor performance Laboratory practice:

1. Pre-test and laboratory introduction

2. Practical of observing the movement of the piston in the cylinder gasoline motor step

3. Practical of calculation of the performance of a stationary combustion motor 4. Practical of introduction of agricultural tractor parts

5. Practical of introduction of parts of clutch, transmission 6. Practical of introduction of PTO and differential parts 7. Practical of tractor performance on linear motion 8. Post-test

Study and examination requirements

1. Midterm exam 2. Final term exam 3. Assignment 4. Group assignment

and forms of examination

5. Laboratory Practice Report 6. Laboratory Practice Final Exam How to score:

Midterm Exam(1-5) = 30%

Final Exam (1-4) = 30%

Assignment = 20%

Laboratory Practice (Report, Lab. Exam, Final Project) = 20%

A : 80 < Final Score ≤ 100 B+ : 75 < Final Score ≤ 80 B : 69 < Final Score ≤ 75 C+ : 60 < Final Score ≤ 69 C : 55 < Final Score ≤ 60 D : 50 < Final Score ≤ 55 D+ : 44 < Final Score ≤ 50 E : 0 < Final Score ≤ 44 Media

employed

Class, Online learning system (Zoom and Google Classroom), Laboratory Practice

Reading list 1. H. N. Gupta. 2012. Fundamentals of Internal Combustion Engines, 2nd Edition. PHI Learning Pvt. Ltd.

2. Harry Field, J. Solie. 2018. Introduction to Agricultural Engineering Technology: A Problem Solving Approach, 4th Edition. Springer Science

& Business Media.

3. C. E. Goering, A. C. Hansen. 2004. Engine and Tractor Power, 4th Edition. American Society of Agricultural Engineers

4. R. H. Macmillan. 2002. The Mechanics of Tractor – Implement Performance: Theory and Worked Examples. A Textbook for Students and Engineers. University of Melbourne.