Mata Kuliah MS3200 - 2024

Kode Mata KuliahMS3200 / 3 SKS
Penyelenggara131 - Teknik Mesin / FTMD
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahDesain dan Rekayasa Sistem TermofluidaThermofluid System Design and Engineering
Bahan Kajian
  1. Pendahuluan tentang Konsep dan Filosofi Desain dan Rekayasa Sistem Mekanikal dan Termofluida. Contoh-contoh dan Fungsi Sistem Mekanikal dan Termofluida (Alat transport di industri dan bangunan gedung, Sistem plambing, Sistem Udara Tekan dan Gas industri, Sistem Pemadam Kebakaran Berbasis Air, Sistem Ventilasi dan Pengondisian Udara). Pengenalan penggambaran sistem (diagram skematik sistem dan peralatan utama, penjelasan fungsi dan manfaat sistem).
  2. Review tentang Energi, Konversi Energi dan Aliran Fluida serta Pengenalan Standard-standard (SNI, NFPA, ASTM yang relevan)
  3. Perancangan dan Pemilihan Peralatan Sistem Transportasi Material dan Orang di Industri dan Bangunan Gedung (Conveyor, Elevator, Eskalator dan Travelator)
  4. Perancangan dan Pemilihan Peralatan Sistem Plambing Bangunan Gedung (sistem penyediaan air bersih dan pembuangan air kotor dan kotoran)
  5. Perancangan dan Pemilihan Peralatan Sistem Gas Industri dan Udara Tekan (termasuk pemilihan kompresor dan tangki tekan untuk penyimpanan gas/udara)
  6. Perancangan dan Pemilihan Peralatan Sistem Pemadam Kebakaran Berbasis Air (Sprinkler dan Hidrant termasuk pompa-pompa dan sistem kontrol otomatik)
  7. Rewiew Psikrometrik, Pendahuluan Sistem Ventilasi dan Pengondisian (pengertian thermal comfort, indoor air quality dan aplikasinya termasuk pada bangunan khusus seperti ruang OK Rumah sakit, clean room dan lain-lain)
  8. Perhitungan Estimasi beban pendinginan, termasuk penggunaan software terkait dan penggambaran profil beban pendinginan.
  9. Pengenalan Paralatan Utama Sistem Pengondisian Udara (review siklus reversed Carnot, Sistem Absorbsi, Refrijeran dan Lingkungan Hidup, Peralatan Sistem AC dan ventilasi termasuk Fan, AC window, AC split, Multi Split AC, AC Sistem Sentral Air & Water Cooled, dan peralatan pendukungnya seperti pompa dan cooling tower).
  10. Desain, Perhitungan dan Pemilihan Peralatan Sistem Distribusi Udara (AHU, FCU, Fan, Ducting, sistem kontrol termasuk constant dan variable flows)
  11. Desain, Perhitungan dan Pemilihan Peralatan Sistem Distribusi Air Sejuk dan Air Pendingin Kondensor (Cooling Tower, Pompa, Pemipaan, sistem kontrol two and three ways valves termasuk constant dan variable flows)
  12. Perancangan sistem kontrol kondisi udara di dalam ruangan (peralatan, fungsi peralatan dan penggambaran) dan analisis psikrometrik terkait.
  1. Introduction to the Concepts and Philosophy of Design and Engineering of Mechanical and Thermofluid Systems. Examples and functions of mechanical and thermofluid systems (e.g., transportation equipment in industry and buildings, plumbing systems, compressed air and industrial gas systems, water-based fire protection systems, ventilation and air conditioning systems). Introduction to system representation (schematic diagrams of systems and main equipment, explanation of system functions and benefits).
  2. Review of Energy, Energy Conversion, and Fluid Flow, as well as an Introduction to Relevant Standards (such as SNI, NFPA, ASTM).
  3. Design and Selection of Equipment for Material and Passenger Transport Systems in Industrial and Building Applications (e.g., conveyors, elevators, escalators, and travelators).
  4. Design and Selection of Equipment for Building Plumbing Systems (including clean water supply and wastewater/sewage disposal systems).
  5. Design and Selection of Equipment for Industrial Gas and Compressed Air Systems (including compressor and pressure tank selection for gas/air storage).
  6. Design and Selection of Equipment for Water-Based Fire Protection Systems (sprinklers and hydrants, including pumps and automatic control systems).
  7. Review of Psychrometrics and Introduction to Ventilation and Air Conditioning Systems, including definitions of thermal comfort, indoor air quality, and applications in special buildings (such as hospital operating rooms, clean rooms, etc.).
  8. Estimation of Cooling Load Calculations, including the use of relevant software and cooling load profiling.
  9. Introduction to Key Equipment in Air Conditioning Systems, including a review of the reversed Carnot cycle, absorption systems, refrigerants and environmental concerns, air conditioning and ventilation equipment (e.g., fans, window ACs, split ACs, multi-split ACs, centralized air and water-cooled systems), and supporting equipment such as pumps and cooling towers.
  10. Design, Calculation, and Selection of Equipment for Air Distribution Systems (AHU, FCU, fans, ducting, and control systems including constant and variable flow systems).
  11. Design, Calculation, and Selection of Equipment for Chilled Water and Condenser Water Distribution Systems (cooling towers, pumps, piping, two-way and three-way control valves, including constant and variable flow systems).
  12. Design of Indoor Air Control Systems (equipment, their functions, and system schematics), and related psychrometric analysis.
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mampu menjelaskan konsep dan filosofi fungsi peralatan utama sistem mekanikal dan sistem termofluida
  2. Mengerti dan mampu mengaplikasikan dalam perhitungan-perhitungan terkait aliran fluida di dalam saluran
  3. Mampu merancang, menggambar dan memilih peralatan utama dan menuliska spesifikasi teknik peralatan utama dalam sistem Mekanikal dan sistem Termofluida seperti Transportasi barang dan orang di industri dan bangunan gedung (conveyor dan elevator), sistem Plambing (air bersih dan air kotor), Sistem Gas industri (Gas dan udara tekan), Sistem pemadam kebakaran berbasis Air (Sprinkler dan Hidrant), sistem Ventilasi dan Pengondisian udara (perhitungan beban pendinginan, pemilihan peralatan, penggambaran skematik diagram sistem, perancangan sistem pendukung (distribusi udara dan air).
  4. Mampu menjelaskan konsep dasar pengaturan sistem, peralatan yang diperlukan dan kaitan dengan psikrometrik udara di dalam ruangan yang dikondisikan.
  1. Able to explain the concepts and philosophy underlying the functions of major equipment in mechanical and thermofluid systems.
  2. Understand and able to apply calculations related to fluid flow in piping or ducting systems.
  3. Able to design, draft, and select major equipment, and prepare technical specifications for key components in mechanical and thermofluid systems, including: Material and personnel transportation systems in industrial and building applications (e.g., conveyors and elevators), Plumbing systems (clean water supply and wastewater systems), Industrial gas and compressed air systems, Water-based fire protection systems (sprinklers and hydrants), Ventilation and air conditioning systems (including cooling load estimation, equipment selection, schematic diagram development, and design of support systems such as air and water distribution systems).
  4. Able to explain basic concepts of system control, required equipment, and its relation to indoor air psychrometrics in conditioned spaces.
Metode PembelajaranCeramah, diskusi, Latihan pengoperasian software estimasi beban AC dan siatem pemipaan, Tugas kelompok merancang sistem, Presentasi Hasil perancanganLecture, discussion, software application, group assignment, presentation
Modalitas PembelajaranWhiteboard, proyektor LED, software cooling load estimation (kerma dengan konsultan yang memiliki lisensi), Pemutaran video terkait sistem Mekanikal dan Termofluida.Whiteboard, LED Pprojector, cooling load estimation software, video
Jenis NilaiABCDE
Metode PenilaianUTS (30%), UAS (40%), Tugas Kelompok (30%)Midterm exam (30%), Final exam (40%), Group assignment (30%%)
Catatan Tambahan