Kode Mata KuliahTL3204 / 2 SKS
Penyelenggara153 - Environmental Engineering / FTSL
KategoriLecture
Bahasa IndonesiaEnglish
Nama Mata KuliahPengendalian Pencemaran UdaraAir Pollution Control
Bahan Kajian
  1. Pendahuluan Batasan emisi untuk berbagai industri peraturan yg berlaku
  2. Konsep dasar pengendalian partikulat Pergerakan partikel (Particle dynamic) Distribusi ukuran partikel
  3. Reduksi emisi dan Pemilihan alat pengendali pencemaran udara yang tepat Reduksi emisi, gaya yang dipakai dalam penyisihan partikel, Efisiensi yang diperlukan, estimasi biaya, menentukan ukuran alat yg sesuai, BACT
  4. Settling Chamber dan cyclone Mekanisme, efisiensi penyisihan pengoperasion,aplikasi dan design
  5. Electrostatic Presipitator Mekanisme dan operasi, Efisiensi penyisihan, Dasar teori EP dan jenis-jenis EP
  6. Fabric Filter Efisiensi penyisihan, Proses filtrasi, dan mekanisme pembersihan (cleaning mechanism)
  7. Wet Scrubber Mekanisme penyisihan, Efisiensi penyisihan, jenis2 Scrubber
  8. Dasar-dasar pengendalian gas Gas ideal, Hk Dalton, Hk. Henri (Henry law) serta hubungan antara gas dan cairan (gas–liquid relationship)
  9. Teori Absorpsi Teori Absorpsi, mekanisme, solubilitas
  10. Absorpsi Perancangan sistem dan aplikasi
  11. Kondensasi Prinsip kondensasi, kondensor, perancangan kondensor
  12. dsorpsi Teori adsorpsi, AD equilibrium, bahan adsorbent, factor-faktor yg berpengaruh thd adsorpsi, metode regenerasi
  13. Teori Pembakaran (Combustion) Prinsip “Combustion”, dan Perhitungan , peralatan pembakaran, incinerator Sistem ventilasi Hood, duck dan vent
  1. Introduction Emission limits for various industries applicable regulations
  2. Basic concepts of particulate control Particle movement (Particle dynamic) Particle size distribution
  3. Emission reduction and selection of appropriate air pollution control equipment Emission reduction, force used in particle removal, required efficiency, cost estimation, determining appropriate equipment size, BACT
  4. Settling chamber and cyclone Mechanism, operational allowance efficiency, application and design
  5. Electrostatic Precipitator Mechanism and operation, removal efficiency, theoretical basis of EP and types of EP
  6. Fabric Filters Removal efficiency, filtration process, and cleaning mechanism
  7. Wet Scrubber Removal mechanism, removal efficiency, types of scrubbers
  8. Basics of gas control Ideal gas, HK Dalton, HK. Henri (Henry's law) and the relationship between gas and liquid (gas–liquid relationship)
  9. Absorption Theory Absorption theory, mechanism, solubility
  10. Absorption System and application design
  11. Condensation Principles of condensation, condensers, condenser design
  12. dsorption Adsorption theory, AD equilibrium, adsorbent materials, factors that influence adsorption, regeneration methods
  13. Combustion Theory Principles of "Combustion", and Calculations, combustion equipment, incinerators Ventilation system Hood, duck and vent
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa memahami keseluruhan sistem pengendalian pencemaran udara serta penggunaan teknologi pengendalian pencemaran udara.
  2. Mahasiswa mampu memilih teknologi terbaik tersedia dalam pengendalian pencemaran udara yang tepat berdasarkan scientific judgment.
  3. Mahasiswa mampu menyelesaikan tugas besar bersama sesuai timeline waktu yang diberikan terkait sistem pengendalian pencemaran udara
  1. Students understand the entire air pollution control system and the use of air pollution control technology.
  2. Students are able to choose the best technology available for appropriate air pollution control based on scientific judgment.
  3. Students are able to complete large assignments together according to the time timeline given regarding the air pollution control system
Metode PembelajaranKBL, PBL, SBL, CBLKBL, PBL, SBL, CBL
Modalitas PembelajaranLuring, SinkronOffline, Synchronous
Jenis NilaiABCDE
Metode PenilaianUraianEssay
Catatan Tambahan