Mata Kuliah MS3105 - 2024

Kode Mata KuliahMS3105 / 2 SKS
Penyelenggara131 - Teknik Mesin / FTMD
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahInstrumentasi, Pengukuran, dan EksperimenInstrumentation, Measurement, and Experiment
Bahan Kajian
  1. Pengantar
  2. Elemen Dasar Sistem Pengukuran
  3. Karakteristik Sistematik Sistem Pengukuran: rentang, jangkauan, linearitas, nonlinearitas, sensitivitas, resolusi, efek lingkungan (modifying dan interfering), histeresis, penuaan, aus, error band.
  4. Karakteristik Statistik Sistem Pengukuran: Nilai rata-rata, Standar deviasi, Kurva distribusi normal, dan Perambatan kesalahan statistik
  5. Karakteristik dinamika sistem pengkuran: Fungsi alih, FRF, dan Bandwidth
  6. Model umum sistem pengkuran
  7. Jenis dan Prinsip Kerja Berbagai Macam Sensor: Sensor mekanik: posisi, kecepatan, speedometer, percepatan, tekanan, gaya. Sensor aliran: venturimeter, baji, rotameter, tabung pitot, vortex, turbin, sensor aliran dengan pemanas, magnetik, ultrasonik, nutating disk, baling-baling, roda gigi. Sensor optik: tachometer, enkoder optik (absolut dan inkremental). Sensor induktif dan kapasitif. Sensor dopler. Sensor temperatur: termokopel, thermistor, RTD, LM35
  8. 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).
  9. Review tentang Energi, Konversi Energi dan Aliran Fluida serta Pengenalan Standard-standard (SNI, NFPA, ASTM yang relevan)
  10. Perancangan dan Pemilihan Peralatan Sistem Transportasi Material dan Orang di Industri dan Bangunan Gedung (Conveyor, Elevator, Eskalator dan Travelator)
  11. Perancangan dan Pemilihan Peralatan Sistem Plambing Bangunan Gedung (sistem penyediaan air bersih dan pembuangan air kotor dan kotoran)
  12. Perancangan dan Pemilihan Peralatan Sistem Gas Industri dan Udara Tekan (termasuk pemilihan kompresor dan tangki tekan untuk penyimpanan gas/udara)
  13. Perancangan dan Pemilihan Peralatan Sistem Pemadam Kebakaran Berbasis Air (Sprinkler dan Hidrant termasuk pompa-pompa dan sistem kontrol otomatik)
  14. 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)
  15. Perhitungan Estimasi beban pendinginan, termasuk penggunaan software terkait dan penggambaran profil beban pendinginan.
  16. 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).
  17. Desain, Perhitungan dan Pemilihan Peralatan Sistem Distribusi Udara (AHU, FCU, Fan, Ducting, sistem kontrol termasuk constant dan variable flows)
  18. 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)
  19. Perancangan sistem kontrol kondisi udara di dalam ruangan (peralatan, fungsi peralatan dan penggambaran) dan analisis psikrometrik terkait.
  1. Introduction
  2. Basic Elements of Measurement Systems
  3. Systematic characteristics of measurement systems include: range, span, linearity, non-linearity, sensitivity, resolution, environmental effects (modifying and interfering), hysteresis, aging, wear, and error band.
  4. Statistical characteristics of measurement systems: Mean value, Standard deviation, Normal distribution curve, and Propagation of statistical errors.
  5. Dynamic characteristics of measurement systems: Transfer function, FRF (Frequency Response Function), and Bandwidth.
  6. General model of measurement systems
  7. Mechanical sensors: position, velocity, speedometer, acceleration, pressure, force. Flow sensors: venturimeter, wedge, rotameter, pitot tube, vortex, turbine, heated flow sensor, magnetic, ultrasonic, nutating disk, propeller, gear. Optical sensors: tachometer, optical encoder (absolute and incremental). Inductive and capacitive sensors. Doppler sensors. Temperature sensors: thermocouple, thermistor, RTD, LM35.
  8. Introduction to the Concept and Philosophy of Mechanical and Thermofluid Systems Design and Engineering. Examples and Functions of Mechanical and Thermofluid Systems (Transportation equipment in industry and buildings, Plumbing systems, Compressed Air and Industrial Gas Systems, Water-Based Fire Extinguishing Systems, Ventilation and Air Conditioning Systems). Introduction to system depiction (schematic diagrams of systems and main equipment, explanation of system functions and benefits).
  9. Review of Energy, Energy Conversion and Fluid Flow and Introduction to Standards (SNI, NFPA, ASTM as relevant)
  10. Design and Selection of Material and People Transportation System Equipment in Industry and Building Construction (Conveyors, Elevators, Escalators and Travelators)
  11. Design and Selection of Building Plumbing System Equipment (clean water supply system and waste water and waste disposal system)
  12. Design and Selection of Industrial Gas and Compressed Air System Equipment (including selection of compressors and pressure tanks for gas/air storage)
  13. Design and Selection of Water-Based Fire Extinguishing System Equipment (Sprinklers and Hydrants including pumps and automatic control systems)
  14. Psychrometric Review, Introduction to Ventilation and Conditioning Systems (understanding thermal comfort, indoor air quality and its applications including in special buildings such as hospital OK rooms, clean rooms and others)
  15. Cooling load estimation calculations, including the use of related software and the drawing of cooling load profiles.
  16. Introduction to the Main Equipment of Air Conditioning Systems (review of reversed Carnot cycle, Absorption System, Refrigerant and Environment, AC and ventilation system equipment including fans, window AC, split AC, multi-split AC, central air & water cooled AC systems, and supporting equipment such as pumps and cooling towers).
  17. Design, Calculation and Selection of Air Distribution System Equipment (AHU, FCU, Fan, Ducting, control systems including constant and variable flows)
  18. Design, Calculation and Selection of Equipment for Cooled Water Distribution Systems and Condenser Cooling Water (Cooling Tower, Pumps, Piping, two and three way valve control systems including constant and variable flows)
  19. Design of indoor air conditioning control systems (equipment, equipment functions and depictions) and related psychrometric analysis.
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa memahami elemen dasar dan konsep dasar pengukuran.
  2. Mahasiswa memahami karakteristik statik (karakteristik sistematik dan karakteristik statistik) sistem pengukuran.
  3. Mahasiswa mengetahui jenis dan cara kerja berbabagi macam sensor seperti: sensor posisi, sensor kecepatan, sensor percepatan, sensor gaya, sensor tekanan, sensor temperatur, dan sensor laju aliran fluida.
  4. Mahasiswa memahami konsep dasar akuisisi data.
  1. Students understand the basic elements and fundamental concepts of measurement.
  2. Students understand the static characteristics (systematic and statistical characteristics) of measurement systems.
  3. Students are familiar with the types and working principles of various sensors, such as position sensors, speed sensors, acceleration sensors, force sensors, pressure sensors, temperature sensors, and fluid flow sensors.
  4. Students understand the basic concepts of data acquisition.
Metode PembelajaranKombinasi ceramah, diskusi kelompok, praktikum dan studi kasusCombination of lecture, group discussion, practiccum, and case study
Modalitas PembelajaranLuring, sinkron, mandiriOffline, synchronous, independent
Jenis NilaiABCDE
Metode PenilaianUTS1 35% UTS2 35% Tugas dan quiz 15% Praktikum 15% UAS sebagai perbaikan1st midterm exam (35%), 2nd midterm exam (35%), homework and quiz (15%), and collaborative learning (15%), final exam as remedial
Catatan Tambahan