COURSE MODULE
Module/Course Title: Agricultural Engineering and Biosystems Management Module
course code TPE 6110
Student Workload
8 hours, 30 minutes
Credits 4.5
Semester
1
Frequency Odd
Duration 1 semester
1 Type of
course Compulsory
Contact hours 150 minutes
Independent Study
180 minutes
Class Size 30 students
2 Prerequisites for participation (if applicable) -
3 Learning Outcomes
ILO-2: Able to identify, analyse, evaluate and formulate a problem in the field of agricultural engineering and biosystems by means of scientific approaches and methods.
ILO-3: Able to solve problems related to environment and natural resources as well as production processes using engineering design and modelling approach.
ILO-4: Able to develop science and technology, especially an appropriate technology through research to produce innovative products that benefit the community.
ILO-5: Able to develop and manage scientific research activities using critical, systematic, and innovative thinking.
4 Subject aims/Content
This course provides an overview and understanding of agriculture and bio systems, as well as agricultural techniques. Policy and management and utilization of natural resources. Optimization of land and water resource management for the agricultural industry, power utilization for the agricultural industry, management of land preparation machine tools, management of land and water tools and machinery, management of harvesting machines. Management of bioprocess and production systems, Policy on the use of biomaterials and energy for agricultural industrial processes
1. Introduction to the management of agricultural engineering and biosystems 2. Sustainable agriculture and industrial agriculture concept
3. The concept of sustainable management of production systems and production processes
4. Management of soil tillage tools and machines
5. Management of tools and machines for pump irrigation, planting, fertilization, pest and disease control, and harvesting processes
6. Biosystem engineering concepts and scope
7. Difference between biosystems engineering and biological engineering 8. The scope of the field of bioprocess engineering
5 Teaching methods 1. Group discussion 2. Simulation 3. Case study
4. Collaborative learning 5. Cooperative learning 6. Project-based learning 7. Case-based learning 6 Assesment Methods
A. Evaluation System for Students
The evaluation system carried out in the implementation of the Agricultural and Biosystem Engineering Management course aims to determine the absorption of knowledge that has been obtained by students which is carried out by conducting several evaluation methods, namely:
● Exams consist of midterm and final exam
● Tasks
● Quiz
The scoring system used is:
● Exams consist of midterm (35%) and final exam (35%)
● Tasks (20%)
● Quiz (5%)
B. Evaluation System for Lecturers
In addition to knowing the level of absorption of student knowledge, evaluation is also carried out on lecturers for the entire series of learning activities provided.
The evaluation was carried out by distributing questionnaires to student participants at the end of the exam. The contents of the questionnaire cover various aspects of learning activities which are described as follows:
● Lecture materials
● Learning method
● Mastery of the material by the lecturer
● Lecture facilities
● Assigments (materials, time and assistance)
● Comments and suggestions
7 This module/course is used in the following study programme/s as well -
8 Responsibility for module/course Dr. Ir. J. Bambang Rahadi W, MS Dr. Ir. Ary Mustofa Ahmad, MP.
Yusuf Wibisono, STP, MSc., Ph.D
9 Other Information1. Malin Falkenmark and Johan Rockcstrom, 2005. Balancing Water for Human and Nature. ERRTHSCAN. LondonSterling, VA.
2. Sitanala Arsyad, Istiqlal Amin, Ted Sheng. 1992 Wiilliam
Moldenhauwer.Concervation Policies For Sustainable Hillslope Farming. Soil and water Concervation Society Ankeny. Iowa USA
3. John Cairns, Jr. 1980. The Recovery Proces In Damage Ecosystem. ANN ARBOR SCIENCE.USA.
4. Robert J. Kodoatie and Roestam Sjarief. 2010. Tata Ruang Air. Andi.
Yogyakarta.Sitanala Arsyad dan Ernan Rustiadi. 2008. Penyelamatan Tanah, Air dan Lingkungan. Yayasan Obor Indonesia. Bogor.
5. Bambang Rahadi Widiatmono, Fajri Anugroho, Euis Elih Nurlaelih, Novia Lusiana. 2018. Daya Dukung dan Daya Tampung Untuk Pengelolaan Lingkungan.
UB Press Malang.
6. Ernan Rustiadi, Baba Barus,Prastowo, La Ode samsul Imam,2010.
7. Pengembangan Pedoman Evaluasi Pemanfaatan Ruang. KLHK, IPB.
8. Yusuf Wibisono, 2017, Biomaterial dan Bioproduk, UB Press, Malang
