Kode Mata KuliahTL4208 / 2 SKS
Penyelenggara153 - Teknik Lingkungan / FTSL
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahPengantar Pemodelan Pencemaran UdaraIntroduction to Air Pollution Modelling
Bahan Kajian
  1. Pengenalan Pemodelan Pencemaran Udara - Definisi dan ruang lingkup pemodelan pencemaran udara - Pentingnya pemodelan dalam manajemen kualitas udara - Gambaran umum jenis-jenis model pencemaran udara
  2. Dasar-Dasar Fisika Atmosfer - Struktur dan komposisi atmosfer - Proses fisika dan kimia dalam atmosfer - Dinamika atmosfer yang mempengaruhi distribusi polutan
  3. Sumber dan Klasifikasi Polutan Udara - Sumber alami dan antropogenik - Klasifikasi polutan udara (primer dan sekunder) - Studi kasus sumber polutan di berbagai daerah
  4. Prinsip Dasar Pemodelan Dispersi Pencemaran Udara - Konsep dasar model dispersi - Persamaan adveksi-difusi - Aplikasi model Gaussian
  5. Teknik Pengumpulan Data dan Inventarisasi Emisi - Metode pengumpulan data emisi - Inventarisasi emisi dan basis data - Validasi dan verifikasi data emisi
  6. Model Numerik dalam Pemodelan Pencemaran Udara - Pengantar metode numerik - Diskritisasi persamaan diferensial - Solusi numerik untuk model pencemaran udara
  7. Model Gaussian Plume - Teori dan aplikasi model Gaussian Plume - Studi kasus penggunaan model Gaussian Plume - Keterbatasan dan keunggulan model Gaussian Plume
  8. Model Kompleks untuk Skala Regional - Model grid (Eulerian) dan model Lagrangian - Model skala regional dan global - Studi kasus penerapan model skala regional
  9. Pemodelan Pencemaran Udara Perkotaan - Sumber polutan di perkotaan - Model dispersi di lingkungan perkotaan - Studi kasus pemodelan pencemaran udara di kota besar
  10. Evaluasi dan Validasi Model - Metode evaluasi kinerja model - Validasi hasil model dengan data observasi - Studi kasus evaluasi model pencemaran udara
  11. Model Kimia Atmosfer - Reaksi kimia dalam atmosfer - Model kimia atmosfer (box model, model Eulerian) - Aplikasi model kimia atmosfer
  12. Pemodelan Pencemaran Udara di Daerah Industri - Sumber polutan di daerah industri - Model dispersi untuk emisi industri - Studi kasus pencemaran udara di kawasan industri
  13. Model Skala Mikro dan Interaksi Bangunan - Pemodelan di skala mikro (area kecil) - Interaksi antara bangunan dan distribusi polutan - Studi kasus pemodelan di area perkotaan padat
  14. Aplikasi Pemodelan untuk Manajemen Kualitas Udara - Penggunaan model untuk perencanaan dan kebijakan - Simulasi skenario mitigasi - Studi kasus aplikasi model dalam pengambilan keputusan
  1. Introduction to Air Pollution Modeling - Definition and scope of air pollution modeling - The importance of modeling in air quality management - General description of the types of air pollution models
  2. Fundamentals of Atmospheric Physics - Structure and composition of the atmosphere - Physical and chemical processes in the atmosphere - Atmospheric dynamics that influence the distribution of pollutants
  3. Sources and Classification of Air Pollutants - Natural and anthropogenic sources - Classification of air pollutants (primary and secondary) - Case studies of pollutant sources in various regions
  4. Basic Principles of Air Pollution Dispersion Modeling - Basic concepts of dispersion models - Advection-diffusion equation - Gaussian model application
  5. Data Collection and Emission Inventory Techniques - Emission data collection methods - Emission inventory and database - Validation and verification of emissions data
  6. Numerical Models in Air Pollution Modeling - Introduction to numerical methods - Discretization of differential equations - Numerical solutions for air pollution models
  7. Gaussian Plume Model - Theory and application of the Gaussian Plume model - Case study of using the Gaussian Plume model - Limitations and advantages of the Gaussian Plume model
  8. Complex Models for Regional Scales - Grid model (Eulerian) and Lagrangian model - Regional and global scale models - Case study of regional scale model application
  9. Urban Air Pollution Modeling - Source of pollutants in urban areas - Dispersion models in urban environments - Case study of air pollution modeling in big cities
  10. Model Evaluation and Validation - Model performance evaluation methods - Validate model results with observation data - Case study of air pollution model evaluation
  11. Atmospheric Chemistry Models - Chemical reactions in the atmosphere - Atmospheric chemistry models (box model, Eulerian model) - Application of atmospheric chemistry models
  12. Modeling Air Pollution in Industrial Areas - Source of pollutants in industrial areas - Dispersion models for industrial emissions - Case study of air pollution in industrial areas
  13. Microscale Models and Building Interactions - Modeling at the micro scale (small area) - Interaction between buildings and pollutant distribution - Modeling case studies in dense urban areas
  14. Modeling Applications for Air Quality Management - Use of models for planning and policy - Simulation of mitigation scenarios - Case studies of model applications in decision making
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa dapat memahami, menganalisa kebutuhan sistem, menginterpretasikan data untuk perhitungan dan perancangan sistem pengelolaan limbah industri
  1. Students can understand, analyze system requirements, interpret data for calculations and design industrial waste management systems
Metode Pembelajaran
Modalitas Pembelajaran
Jenis NilaiABCDE
Metode Penilaian
Catatan Tambahan