| Bahan Kajian | - 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
- Pengantar Pencemaran Udara:
Satuan konsentrasi pencemar; komposisi udara bersih; pencemar kriteria; karakteristik, efek dan dampak pencemar
- 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
- Emisi:
Jenis-jenis sumber emisi; karakteristik sumber titik, garis; area; pengenalan inventarisasi emisi; faktor emisi; data yang dibutuhkan; contoh-contoh inventori emisi
- Meteorologi Pencemaran Udara:
Meteorologi sinoptik; sirkulasi angin, kecepatan dan arah angin; profil angin; bunga angin; tekanan dan temperatur
- Stabilitas Atmosfer:
Stratifikasi atmosfer, pengertian stabilitas atmosfer; Maximum Mixing Depth; Kaitan antara stabilitas dan parameter meteorologis lainnya, Lapse Rate dan jenis-jenis stabilitas
- 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
- 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
- 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
- Mahasiswa mengenal prinsip dasar dan kegunaan dan jenis-jenis pemantauan udara ambien:
Bentuk-bentuk monitoring; lokasi monitoring; strategi monitoring; metode dan teknik monitoring
- Pengantar Pemantauan Emisi; Peralatan dan Analisis Laboratorium:
Jenis pemantauan emisi; peralatan dan analisis hasil pemantauan emisi; analisis laboratorium sampel emisi dan ambien
- 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
- Pengenalan Alat-alat Pengendalian Pencemar Partikulat:
Gravity Settler; ESP; Filters; Scrubbers untuk Partikulat
- Pengenalan Alat-alat Pengendalian Pencemar Gas
Adsorpsi, Absorsi dan Gas Stripping; Kombusi dan Kondensasi; Wet Scrubbers;
| - 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
- Introduction to Air Pollution:
Pollutant concentration units; clean air composition; pollutant criteria; pollutant characteristics, effects and impacts
- 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
- Emissions:
Types of emission sources; characteristics of point, line, area sources; introduction to emission inventory; emission factors; data required; examples of emission inventories
- Meteorology Air Pollution:
Synoptic meteorology; wind circulation, wind speed and direction; wind profile; wind flower; pressure and temperature
- Atmospheric Stability:
Atmospheric stratification, understanding atmospheric stability; Maximum Mixing Depth; Relationship between stability and other meteorological parameters, Lapse Rate and types of stability
- 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
- 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
- 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
- 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
- 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
- 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
- Introduction to Particulate Pollutant Control Devices:
Gravity Settler; ESP; Filters; Scrubbers for Particulates
- Introduction to Gaseous Pollutant Control Equipment Adsorption, Absorption and Gas Stripping; Combustion and Condensation; Wet Scrubbers;
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mahasiswa mampu menjelaskan prinsip-prinsip interaksi, pengaruh alam serta akibat-akibat aktivitas yang dilakukan oleh manusia terhadap kualitas udara.
- Mahasiswa mampu menghubungkan dasar-dasar pengetahuan dan teknik rekayasa yang dibutuhkan dalam pengendalian, pemantauan, prediksi dan kebijakan yang berkaitan dengan pengelolaan kualitas udara.
| - Students are able to explain the principles of interaction, the influence of nature and the effects of human activities on air quality.
- Students are able to connect the basic knowledge and engineering techniques needed in controlling, monitoring, predicting and policies related to air quality management.
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