Archive for the ‘Materi Kuliah’ Category

Matematika 2

Materi Kuliah | Posted by asepmusa
Jun 04 2017

Standar Kompetensi

Mahasiswa mampu menyusun dan menyelesaikan persamaan diferensial biasa dan parsial secara analitis.

 

Kompetensi Dasar 

  1. Mahasiswa mampu menyusun dan menyelesaikan persamaan diferensial parsial
  2. Mahasiswa mampu menyusun dan menyelesaikan persamaan diferensial simultan
  3. Mahasiswa memahami dasar-dasar dan pengembangan deret

 

Referensi

  1. E. Kreyszig. Advanced Engineering Mathematics 10th Edition. John Wileys and Sons, Inc.
  2. A. J. Hobson. Just the Math
  3. K. A. Stroud. 1987. Engineering Mathematics 3rd Edition. The Macmikkan Oress Ltd.

 

Materi Kuliah

  1. Kontrak Pembelajaran Matematika 2
  2. Persamaan Diferensial Parsial
  3. Persamaan Diferensial Simultan
  4. Deret

 

—-

Perancangan Alat Proses (TKK 376)

Materi Kuliah | Posted by asepmusa
Apr 01 2017

Tujuan Instuksional Umum

Mahasiswa mampu menjelaskan dasar-dasar perancangan alat proses tertentu pada industri kimia dan menerapkannya ke dalam rancangan mekanik

 

Referensi

  1. Backhurst, J.R. and Harker, J.H. (1973), : Process Plant Design, Heinemen Chemical Engineering Series, London.
  2. Brownell, L.E.,  Young E.H. (1959). Process Equipment Design. John Wiley & Sons, Inc., New York.
  3. Foust, A.S., and Assosiates, (1960), Principles of Unit Operations, Topan Company, Ltd., Japan.
  4. Seider, W.D., Seader, J.D., Lewin, D.R. (1998). Process Design Principles, John Wiley & Sons, Inc., New York
  5. Coulson, J.H., Richardson, J.F., & Sinnott, R.K. (1983). Chemical Engineering Design. Vol. 6. Pergamom Press, Oxford.
  6. Kern, D.Q. (1965). Process Heat Transfer. International Student Edition, McGraw Hill Kogakusha, Ltd., New York.
  7. Santosa, H. (1995). Perancangan Menara.  Teknik Kimia Undip, Semarang.
  8. Santosa, H. (2002). Teknik Kimia dan Perancangan Alat : Tinjauan Umum  Dalam Sebuah Ilustrasi.  Teknik Kimia Undip, Semarang.
  9. Santosa, H. (2002). Aturan-Aturan Umum pada Perancangan Alat Proses.  Teknik Kimia Undip, Semarang.
  10. Santosa, H. (2002). Perancangan Tray Tower.  Teknik Kimia Undip, Semarang.
  11. Santosa, H. (2002). Perancangan Packed Tower.  Teknik Kimia Undip, Semarang.
  12. Santosa, H. (2005). Teknik Kimia dan  Satuan Operasi: Dari Sistem Proses Menuju Organisasi Sistem Pemroses.  Teknik Kimia Undip, Semarang.

 

Bahan Kuliah

  1. Kontrak Pembelajaran
  2. Pendahuluan
  3. Pemilihan Tipe Kolom Pemisah
  4. Perancangan Tray Tower
  5. Perancangan Packed Tower

 

 

Kimia Anorganik (TK 253)

Materi Kuliah | Posted by asepmusa
Dec 07 2015

Tujuan Instruksional Umum 

Setelah mengambil mata kuliah ini, diharapkan mahasiswa akan mampu menjelaskan teori-teori atom; ikatan ion, kovalen, dan hidrogen; teori kuantum dan strukutur atom; model mekanika kuantum atom; konfigurasi elektron, elektronegatifitas, dan afinitas elektron; gaya intramolekuler dan gaya intermolekuler; bentuk molekul; senyawa/kimia koordinasi; Condensed Phase/kimia padatan; kesetimbangan kimia dan prinsip Le-Chatelier; teori asam-basa, kesetimbangan asam-basa, serta reaksi oksidasi-reduksi; Kimia Unsur, terutama dari aspek-aspek molekular.•

 

Referensi

Martin S. Silberberg, (2006), “Chemistry: The Molecular Nature of Matter and Change”, 4th Edition, The McGraw-Hill Companies, Inc., ISBN 0-07-111658-3

 

Materi Kuliah

atau download di https://goo.gl/hQyKEr

 

Azas Teknik Kimia I (TKK 271)

Materi Kuliah | Posted by asepmusa
Oct 16 2015

Tujuan Instruksional Umum :

Mahasiswa dapat menyusun dan menerapkan neraca massa dan panas untuk menentukan variabel operasi/proses yang belum diketahui pada suatu sistem.

Referensi

  1. Himmelblau, DM., Basic Principles and Calculation in Chemical Engineering, Prentice Hall, 7th ed, 2003.
  2. Felder, RM and Rousseau., Elementary Principles Of Chemical Processes, John Wiley and Sons, 3rd ed, 2000.
  3. Reklaitis, GV., Introduction to Material Balances, 1983

Bahan Kuliah

Coal Technology (TKK 462)

Materi Kuliah | Posted by asepmusa
Jun 16 2015

General Instructional Objective

The student should be able to explain and apply the principles of coal conversion into energy

 

References

  1. Miller, B.G., ”Coal Energy Systems”, 2005, Elsevier Academic Press.
  2. Berkowiz, An Introduction of Coal Technology, 1979, Academic Press.
  3. Kirk-Othmer Encyclopedia of Chemical Engineering 5th Edition

Read the rest of this entry »

CHEMICAL PRODUCT ENGINEERING

Materi Kuliah | Posted by asepmusa
Nov 19 2013

General Instructional Objective :

The aim of this course is to introduce the students to the structured approach of designing a chemical product. After a thorough introduction of the product concept design path (following the tradition of Cussler and Moggridge) the course utilizes several case studies of product design in order to introduce the concepts of specialty chemicals, micro- and macrostructure products and devices for chemical changes.

 

References

  1. Cussler and Moggridge. (2011). Chemical product design. 2nd edn. Cambridge University Press.
  2. Wesselingh, J. A. (2007). Design and Development of Biological, Chemical, Food and Pharmaceutical Products, John Wiley & Sons Ltd, England

 

Lecture Materials

  1. General Concept
  2. Chemical Product Pyramid_revised
  3. Commodity Products
  4. Microstructured Products
  5. Molecular Products
  6. Economic Concideration

 

 

MEMBRANE TECHNOLOGY (TKK 483)

Kuliah, Materi Kuliah | Posted by asepmusa
Nov 11 2013

General Instructional Objective :

The student should be able to explain and design processes in membrane-based separation applications for various industries.

 

References

  1. Mulder, M. (1996). Basic Principles of Membrane Technology. 2nd edn. Kluwer Academic Publishers, Dodrecht.
  2. Cheryan, M. (1998). Ultrafiltration and Microfiltration Handbook. Technomic Publishing Company, Inc., Lancaster.
  3. Byrne, W. (1995). Reverse Osmosis: A Practical Guide for Industrial Users, 1st edn. Tall Oaks Publishing Inc., Littleton.
  4. Baker, R. (2004). Membrane Technology and Applications, 2nd edition, jon Willey and Sons, California
  5. Scoot, K. (1997). Handbook of Industrial membranes. 1st ed. Elsevier Advanced Technology.

 

Lecture Materials

  1. Course Description (TKK 483)
  2. Introduction
  3. Membrane Classification
  4. Membrane Preparation
  5. Membrane Characterization
  6. Membrane Modul
  7. Membrane Prosesses
  8. Mass Transfer

 

MEMBRANE SEPARATION (TKK 435)

Materi Kuliah | Posted by asepmusa
Nov 04 2013

General Instructional Objective :  Students are able to explain the principles of membrane-based separation

 

References 

  1. Mulder, M. (1996). Basic Principles of Membrane Technology. 2nd edn. Kluwer Academic Publishers, Dodrecht.
  2. Cheryan, M. (1998). Ultrafiltration and Microfiltration Handbook. Technomic Publishing Company, Inc., Lancaster.
  3. Byrne, W. (1995). Reverse Osmosis: A Practical Guide for Industrial Users, 1st edn. Tall Oaks Publishing Inc., Littleton.
  4. Baker, R. (2004). Membrane Technology and Applications, 2nd edition, Jon Willey and Sons, California

 

Lecture Materials

  1. Course Description (TKK 435)
  2. Introduction
  3. Membrane Preparation
  4. Membrane Classification
  5. Membrane Characterization
  6. Membrane Module
  7. Membrane Processes
  8. Mass Transfer

 

 

 

Skip to toolbar