Konsep & Definisi Termodinamika

Standar Kompetensi :

Mahasiswa dapat memahami dan menguasai teori dasar Termodinamika serta mampu menerapkan dalam permasalahan Termodinamika Teknik

Kompetensi Dasar :

Mahasiswa memahami konsep-konsep dasar dan definisi termodinamika serta metodologi pemecahan masalah pada termodinamika teknik.

Indikator :

  1. Mahasiswa dapat menjelaskan definisi system, boundary, surrounding, state, process, extensive dan intensive properties, equilibirium.
  2. Mahasiswa dapat menggunakan system satuan SI dan English Engineering serta mengkonversi satuan
  3. Dapat mengetahui skala temperature, celcius, Kelvin, Fahrenheit dan Rankine.
  4. Dapat memahami konsep temperatur dan Tekanan
  5. Dapat menggunakan Metodologi pemecahan Masalah

Aplikasi Termodinamika

  1. Steam Power Plant
  2. Fuel Cell
  3. The Vapor-Compression Refrigeration Cycles
  4. The Thermoelectric Refrigerator
  5. Turbine Gas
  6. Internal Combustion Engine
  7. BioMedical Application
  8. Others

DIMENSION & Units

  1. Si Units
  2. English Engineering Units

SYSTEM

  1. System
  2. Closed System
  3. Open System
  4. Steady-Flow System
  5. Unsteady-Flow System(Transient)
  6. Simple, Compressible System

PROPERTIES OF a SYSYTEM

  1. Properti
  2. Extensive property
  3. Intensive property
  4. Specifik Property

STATE & EQUILIBRIUM

  1. State
  2. State Postulate
  3. Equilibrium
  4. Mechanical equilibrium
  5. Thermal Equilibrium
  6. Chemical Equilibrium
  7. Phase Equilibrium
  8. Quasi-Equilibrium

PROCESSES

  1. Proses
  2. Isobarik Proses
  3. Isothermal Proses
  4. IsoMetrik Proses
  5. Process Path

FORMS of ENERGY

  1. Energy Kinetik
  2. Energi Potensial
  3. Energi Kimia
  4. Energi Nuklir
  5. Energi Listrik
  6. Energi Dalam
  7. Dan lain-lain

TEMPERATURE

  1. Temperatur
  2. The Zeroth Law Of Thermodynamics
  3. Temperature Scales
  4. Termometer

PRESSURE

  1. Tekanan
  2. Gage & Absolute Pressure
  3. Manometer

METODOLOGI PEMECAHAN MASALAH

  1. Clearly State & Understand the Problem
  2. Clearly Identify the System
  3. List Given Information
  4. Identify the Processes That the system Undergoes
  5. State Any Assumption or Conditions
  6. Apply the Concervation & other Approriate Principles
  7. Draw of Process Diagram
  8. Obtain Property Data & Complete the System
  9. Reasoning, Verification & Discussion

Daftar literature/Referensi/Bahan ajar

  1. Cengel, Yunus A. 2011. Thermodynamics : An Engineering Approach.7th edition.Mc.Graw-Hill.Inc.New York.
  2. Moran, Michael J.Shapiro, Howard N. 2011. Fundamental Of Engineering Thermodynamics, Seven Edition. Jhon Wiley & Sons. Inc.
  3. Balmer, Robert T. 2011. Modern Engineering Thermodynamics. ElSevier.Inc.
  4. Sonntag, Richard E, 2009. Fundamental of Thermodynamics, 7Ed. Jhon Wiley & Sons.Inc

Literatur tambahan :