Course Module

Bioprocess Engineering Study Program Faculty of Agricultural Technology Universitas Brawijaya

Module name Transport Phenomena 1 Module level Undergraduate program

Code TPO61008

Subtitle -

Courses -

Semester(s) 3

Person responsible for the module

Yusuf Wibisono, STP, M.Sc., Ph.D Lecturer 1. Dr. M. Bagus Hermanto, S.TP., MSc.

2. Dr. Ir. Bambang Dwi Argo, DEA 3. Yusuf Wibisono, STP, M.Sc., Ph.D 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, project, seminar etc Workload 90,67 hours/semester

Lecture, Exercise and private study Credit points 2 SKS / 3,4 ECTS

Requirements according to the examination regulations

-

Recommended prerequisites

Physics Module

objectives/intended learning outcomes

ILO-1: To acquire a sound knowledge in mathematics and natural science and apply engineering principles in determining and solving contemporary and complex problems related to bioprocessing ILO-2: To formulate and operate conversion processes of biological resources into bio-based value added materials related to food, feed, fuels, pharmaceutical, nutraceutical, biomaterials or biochemicals ILO-3: To design biological reaction and reactors including its materials, instrumentation, control, and modeling

Objectives

Knowledge: familiarity with transport phenomena and its principles

Skills: cognitive –

. Phsycomotoric -

Competences: Student able to evaluate

Content Course

1) Introduction: Definition of the displacement phenomena, vector and tensor

2) Basic concept of viscosity in liquid and gas, Newton’s law about viscosity

3) Viscosity in pure liquid, suspension and emulsion

4) Convective momentum transfer, momentum equilibrium and boundary conditions

5) Flow and viscosity distribution on falling film 6) Flow and viscosity distribution on cylinder pipe 7) Flow of two immisible liquids

8) Equations for Isothermal conditions: continuity equation 9) Equations for the change in momentum

10) Equations for the change on cylinder pipe 11) Equations for the change on Couette flow

12) Equations for the change on reactor tank (agitated tank) 13) Velocity distribution in turbulent flow

14) Velocity distribution in non-Newtonian fluid’s flow Study and examination

requirements and forms of examination

1. Midterm exam 2. Final term exam 3. Assignment 4. Group assignment How to score:

Midterm Exam(1-5) = Final Exam (1-4) = Assignment =

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), Ms.

Powerpoint, Ms. Word, Computer, LCD

Reading list 1) Bird, R.B. et al., 2002. Transport Phenomena (2nd Edition). John Wiley & Sons Inc.

2) Pedoman Pendidikan Fakultas Teknologi Pertanian Universitas Brawijaya, 2019