Course Module

Department of Agricultural Engineering Faculty of Agricultural Technology Universitas Brawijaya

Module name Design of Agricultural Tools and Machinaries Module level Undergraduate program

Code TPE4211

Subtitle -

Courses -

Semester(s) 6 Person

responsible for the module

Dr.Ir. Bambang Susilo, M.Sc.Agr.

Lecturer 1. Dr.Ir. Bambang Susilo, M.Sc.Agr.

2. Darmanto, ST, MT

3. Dr.Ir. Gunomo Djoyowasito, MS 4. Joko Prasetyo, STP, M.Si 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 4109

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

ILO-5: An ability to identify, formulating, analyzing and solving problems in the field of agricultural engineering through systems approach

Objectives: This course explains the understanding of the design and types of agricultural machinery and tools, design principles, steps to design agricultural tools and machines. Design of a cooling engine along with an explanation of the various cooling loads. The design of the drying machine, the design of the evaporator machine, the way the press machine works, the hydraulic machine which includes the basic principles, working fluid, piston, cylinder cover, pipelines and hydraulic pumps. Machine tools and pneumatic control systems, mechanical machinery and mechanical machinery design and applications.

Knowledge: familiarity with the design and types of agricultural machinery and tools, design principles, steps to design agricultural tools and machines

Skills: cognitive – Apply the design and types of agricultural machinery and tools, design principles, steps to design agricultural tools and machines.

Phsycomotoric - practical abilities to design agricultural tools and machines Competences: Student able to evaluate a cooling engine, drying machine,

evaporator machine, press machine, hydraulic machine, and pneumatic control systems

Content Courses:

1) Introduction to the design of tools and machines in agriculture 2) Steps to design agricultural tools / machines

3) Structural design: a combination of stress on agricultural tools and machinery 4) Technical Analysis

5) Design of ejector system vacuum generator 6) Design of Vacuum fryer and Vacuum evaporator

7) Design of Supercritical Extraction Machines and High Pressure Processing Machines

8) Mechanical Drying Machine Design 9) Design of refrigerator machines Laboratory practice:

1. Case study of screw conveyor calculations

2. Bernouli's law application in the generation of vacuum systems 3. Components of vacuum fryer and vacuum evaporator machine

4. The basics of general extraction and supercritical extraction and the basis of high pressure processing technology.

Study and examination requirements and forms of examination

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

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) Keith Frank, Mechanical Engineering Handbook, CRC Press LLC, New york, 1999 2) Hollowenko, 2001. Machine Design. McGrawHill Book.

3) Krutz, G., Thompson, L., Claar, P. 1984. Design of agricultural machinery. John Wiley & Sons, New York, USA

4) Kutz, M. 2019. Handbook of farm, dairy, and food machinery engineering.

Academic Press Elsevier Inc.

5) Sharma, D.N., Mukesh. 2012. Farm machinery design principles & problems.

Jain Bros.