Kode Mata KuliahFI4261 / 2 SKS
Penyelenggara102 - Fisika / FMIPA
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahFisika Lingkungan dan Migas NonkonvensionalEnvironmental Physics and Nonconventional Hydrocarbon
Bahan Kajian
  1. Pendahuluan: Keberlangsungan pasokan energi, efek rumah kaca, penyerapan cahaya di alam, kontribusi sains dalam pemodelan dan pemantauan lingkungan secara fisika
  2. Cahaya dan Materi: solar UV dan dampaknya pada kehidupan, Ozone sebagai filter UV, Perhitungan energi dalam foton cahaya, estimasi radiasi matahari per jam, estimasi transmisivitas atmosfer dari Nilai Radiasi Matahari Diukur di Permukaan
  3. Pola Perubahan Iklim, efek rumah kaca, dan dampak pemanasan Global. Perhitungan Radiasi pada Hutan, perhitungan intensitas komponen radiasi matahari pada bangunan - bangunan
  4. Pengukuran Paleoclimate, Paleo Temperature, Paleo Tsunami, Paleo Sea Level change
  5. Pengenalan Sumber Energi Terbarukan: energi surya, angin, hydroelektrik, fisika fotosintesa, nuklir, dan panas bumi, beserta efisiensinya dan dampak lingkungan
  6. Kualitas Udara dan Polusi: Analisis polutan udara, sumbernya, dan pengaruhnya terhadap kesehatan manusia dan lingkungan
  7. Penyerapan Karbon: Metode untuk menangkap dan menyimpan karbon dioksida, seperti reboisasi, penyimpanan karbon tanah, dan teknologi penangkapan dan penyimpanan karbon (CCS)
  8. Dampak kenaikan permukaan laut, pengasaman laut, implikasinya terhadap ekosistem laut dan masyarakat
  9. Pengenalan Teknik Penginderaan Jauh untuk memantau perubahan lingkungan
  10. Pengenalan Analisis Mengenai Dampak Lingkungan: cara menilai dampak proyek pembangunan (misalnya, konstruksi, pertambangan, infrastruktur) terhadap lingkungan
  11. Definisi shale gas, karakter batuan shale gas, Explorasi shale gas, mineralogi shale gas, pola reservoir shale gas, gradient geothermal, estimasi suhu pembentukan shale, membaca data geokimia, cara membaca data XRD
  12. Pengenalan palinspatic model tektonik stratigrafi, Porositas shale gas, SEM shale gas, Perhitungan Cadangan shale gas
  13. Desain Hydraulic fracturing di shale gas
  14. Cadangan Methane Hydrate Dunia , karakter reservoir Methane Hydrate
  15. Perhitungan cadangan dan desain teknik penambangan gas methane hydrate, teknik perhitungannya secara sederhana
  1. Introduction: Sustainability of energy supply, greenhouse effect, absorption of light in nature, contribution of science in physical environmental modeling and monitoring
  2. Light and Matter: solar UV and its impact on life, Ozone as a UV filter, Calculation of energy in photons of light, estimation of solar radiation per hour, estimation of atmospheric transmissivity from Solar Radiation Values ​​Measured at the Surface
  3. Climate Change Patterns, Greenhouse Effects, and Global Warming Impacts. Calculation of Radiation in Forests, calculation of the intensity of solar radiation components in buildings
  4. Measurement of Paleoclimate, Paleo Temperature, Paleo Tsunami, Paleo Sea Level change
  5. Introduction to Renewable Energy Sources: solar, wind, hydroelectric, photosynthetic, nuclear and geothermal energy, along with their efficiency and environmental impacts
  6. Air Quality and Pollution: Analysis of air pollutants, their sources, and their effects on human health and the environment
  7. Carbon Sequestration: Methods for capturing and storing carbon dioxide, such as reforestation, soil carbon storage, and carbon capture and storage (CCS) technologies.
  8. Impact of sea level rise, ocean acidification, implications for marine ecosystems and society
  9. Introduction to Remote Sensing Techniques for monitoring environmental changes
  10. Introduction to Environmental Impact Assessment: how to assess the impact of development projects (e.g. construction, mining, infrastructure) on the environment
  11. Definition of shale gas, shale gas rock characteristics, shale gas exploration, shale gas mineralogy, shale gas reservoir patterns, geothermal gradients, estimated temperature of shale formation, reading geochemical data, how to read XRD data
  12. Introduction to palinspatic stratigraphic tectonic models, Porosity of shale gas, SEM of shale gas, Calculation of shale gas reserves
  13. Hydraulic fracturing design in shale gas
  14. World Methane Hydrate Reserves, character of Methane Hydrate reservoirs
  15. Calculation of reserves and design of methane hydrate gas mining techniques, simple calculation techniques
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mampu memformulasi sistem fisika lingkungan ke dalam model fisis dengan menggunakan matematika
  2. Mampu memformulasi sistem migas nonkonvensional ke dalam model fisis dengan menggunakan matematika
  3. Mampu memecahkan masalah fisika lingkungan migas nonkonvensional secara komprehensif menggunakan matematika dan perangkat komputasi
  4. Mampu menganalisis persoalan fisika lingkungan migas nonkonvensional dengan mengaplikasikan matematika dan perangkat komputasi/ICT
  1. Able to formulate environmental physics systems into physical models using mathematics
  2. Able to formulate unconventional oil and gas systems into physical models using mathematics
  3. Able to solve unconventional oil and gas environmental physics problems comprehensively using mathematics and computing tools
  4. Able to analyze unconventional oil and gas environmental physics problems by applying mathematics and computing/ICT tools
Metode PembelajaranCeramah, diskusi kelompok
Modalitas PembelajaranLuring Sinkron,Bauran/Daring Asinkron
Jenis NilaiABCDE
Metode PenilaianUjian Tengah Semester, Ujian Akhir Semester, Tugas, Kuis
Catatan TambahanMKPB