Kode Mata KuliahTL3104 / 3 SKS
Penyelenggara153 - Environmental Engineering / FTSL
KategoriLecture
Bahasa IndonesiaEnglish
Nama Mata KuliahPencemaran UdaraAir Pollution
Bahan Kajian
  1. Pendahuluan: Penjelasan kuliah secara umum, tata cara, ujian dan literatur Sistem pencemaran udara; permasalahan utama dalam kualitas udara dalam skala lokal dan global; sistem pengelolaan kualitas udara dan kaitan antara komponen-komponennya
  2. Pengantar Pencemaran Udara: Satuan konsentrasi pencemar; komposisi udara bersih; pencemar kriteria; karakteristik, efek dan dampak pencemar
  3. Peraturan dalam Pengelolaan Kualitas Udara dan Baku Mutu: Baku Mutu Udara Ambien; Baku Mutu Emisi; Dasar-dasar penetapan Baku Mutu; implikasi dari peraturan dan Baku Mutu, ISPU
  4. Emisi: Jenis-jenis sumber emisi; karakteristik sumber titik, garis; area; pengenalan inventarisasi emisi; faktor emisi; data yang dibutuhkan; contoh-contoh inventori emisi
  5. Meteorologi Pencemaran Udara: Meteorologi sinoptik; sirkulasi angin, kecepatan dan arah angin; profil angin; bunga angin; tekanan dan temperatur
  6. Stabilitas Atmosfer: Stratifikasi atmosfer, pengertian stabilitas atmosfer; Maximum Mixing Depth; Kaitan antara stabilitas dan parameter meteorologis lainnya, Lapse Rate dan jenis-jenis stabilitas
  7. Dasar Model Dispersi Gauss: Model difusi Eddy;Distribusi Normal dan Gauss; Dispersi dari sumber titik dengan dan tanpa refleksi; pengertian dan estimasi sy dan sz
  8. Ketinggian Efektif Cerobong dan Model Dispersi Gauss untuk konsentrasi dan deposisi dari sumber titik: Pengertian ketinggian efektif;Rumus Holland; Moses dan Carson untuk ketinggian efektif pada berbagai kondisi stabilitas; dispersi dan deposisi partikulat dari cerobong
  9. Model Dispersi untuk Sumber Garis dan Area serta Box Model: Pengertian dan rumus perhitungan sumber garis; pengertian dan perhitungan sumber area; pengertian, asumsi yang digunakan serta perhitungan pemodelan dengan box model
  10. Mahasiswa mengenal prinsip dasar dan kegunaan dan jenis-jenis pemantauan udara ambien: Bentuk-bentuk monitoring; lokasi monitoring; strategi monitoring; metode dan teknik monitoring
  11. Pengantar Pemantauan Emisi; Peralatan dan Analisis Laboratorium: Jenis pemantauan emisi; peralatan dan analisis hasil pemantauan emisi; analisis laboratorium sampel emisi dan ambien
  12. Pengantar Teknologi Pencegahan dan Pengendalian Pencemaran Udara dari Sumber Bergerak dan Tidak Bergerak: Catalitic converter dan alat pengendali emisi kendaraan bermotor, gambaran umum sistem pengendalian pencemaran udara industri
  13. Pengenalan Alat-alat Pengendalian Pencemar Partikulat: Gravity Settler; ESP; Filters; Scrubbers untuk Partikulat
  14. Pengenalan Alat-alat Pengendalian Pencemar Gas Adsorpsi, Absorsi dan Gas Stripping; Kombusi dan Kondensasi; Wet Scrubbers;
  1. Introduction: General explanation of lectures, procedures, exams and literature Air pollution systems; major problems in air quality on a local and global scale; air quality management systems and the relationship between their components
  2. Introduction to Air Pollution: Pollutant concentration units; clean air composition; pollutant criteria; pollutant characteristics, effects and impacts
  3. Regulations in Air Quality Management and Quality Standards: Ambient Air Quality Standards; Emission Quality Standards; Basics of Quality Standards Determination; Implications of Regulations and Quality Standards, ISPU
  4. Emissions: Types of emission sources; characteristics of point, line, area sources; introduction to emission inventory; emission factors; data required; examples of emission inventories
  5. Meteorology Air Pollution: Synoptic meteorology; wind circulation, wind speed and direction; wind profile; wind flower; pressure and temperature
  6. Atmospheric Stability: Atmospheric stratification, understanding atmospheric stability; Maximum Mixing Depth; Relationship between stability and other meteorological parameters, Lapse Rate and types of stability
  7. Basic Gaussian Dispersion Model: Eddy diffusion model; Normal and Gaussian distribution; Dispersion from point sources with and without reflection; understanding and estimation of sy and sz
  8. Effective Height of Chimney and Gauss Dispersion Model for concentration and deposition from point sources: Definition of effective height; Holland Formula; Moses and Carson for effective height at various stability conditions; dispersion and deposition of particulates from chimneys
  9. Dispersion Model for Line and Area Sources and Box Model: Definition and calculation formula for line sources; definition and calculation of area sources; definition, assumptions used and modeling calculations with box model
  10. Students are introduced to the basic principles and uses and types of ambient air monitoring: Forms of monitoring; monitoring locations; monitoring strategies; monitoring methods and techniques
  11. Introduction to Emission Monitoring; Laboratory Equipment and Analysis: Types of emission monitoring; equipment and analysis of emission monitoring results; laboratory analysis of emission and ambient samples
  12. Introduction to Air Pollution Prevention and Control Technology from Mobile and Stationary Sources: Catalytic converters and vehicle emission control devices, overview of industrial air pollution control systems
  13. Introduction to Particulate Pollutant Control Devices: Gravity Settler; ESP; Filters; Scrubbers for Particulates
  14. Introduction to Gaseous Pollutant Control Equipment Adsorption, Absorption and Gas Stripping; Combustion and Condensation; Wet Scrubbers;
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa mampu menjelaskan prinsip-prinsip interaksi, pengaruh alam serta akibat-akibat aktivitas yang dilakukan oleh manusia terhadap kualitas udara.
  2. Mahasiswa mampu menghubungkan dasar-dasar pengetahuan dan teknik rekayasa yang dibutuhkan dalam pengendalian, pemantauan, prediksi dan kebijakan yang berkaitan dengan pengelolaan kualitas udara.
  1. Students are able to explain the principles of interaction, the influence of nature and the effects of human activities on air quality.
  2. Students are able to connect the basic knowledge and engineering techniques needed in controlling, monitoring, predicting and policies related to air quality management.
Metode PembelajaranKBL, PBL, SBL, CBLKBL, PBL, SBL, CBL
Modalitas PembelajaranLuring, SinkronOffline, Synchronous
Jenis NilaiABCDE
Metode PenilaianUraianEssay
Catatan Tambahan