Eskisehir Technical University Info Package Eskisehir Technical University Info Package
  • Info on the Institution
  • Info on Degree Programmes
  • Info for Students
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About the Program Educational Objectives Key Learning Outcomes Course Structure Diagram with Credits Field Qualifications Matrix of Course& Program Qualifications Matrix of Program Outcomes&Field Qualifications
  • Faculty of Engineering
  • Dept.of Materials Science and Engineering (English
  • Course Structure Diagram with Credits
  • Materials and Energy Balance
  • Learning Outcomes
  • Description
  • Learning Outcomes
  • Course's Contribution to Prog.
  • Learning Outcomes & Program Qualifications

  • Applies basic process calculations and calculates process system variables.
  • convert a quantity expressed in one set of units into its equivalent in any other dimensionally consistent units using conversion factor tables.
  • calculate the density of a liquid or solid species from a knowledge of the specific gravity.
  • calculate the composition of a mixture in terms of mole fractions from a given compositon expressed in terms of mass fractions or vice versa.
  • apply material balances on nonreactive single-unit processes
  • explain the meaning of batch, semibatch, continuous, transient and steady state processes.
  • sketch a flowchart and labels it.
  • identify a convenient basis of calculation.
  • calculate the degrees of freedom.
  • list the material balances.
  • solve mathematical equations.
  • apply material balances on reactive multiple unit processes
  • explain the meaning of purge, recycle and bypass.
  • calculate the unknown variables by solving material balances.
  • use molecular species balances, atomic species balances or extents of reaction for both the degree of fredom analysis and the process calculations.
  • formulate material and energy balances on nonreactive processes
  • list and define the three components of the total energy of a process system and the two forms of energy transfer between a system and its surroundings by stating the conditions under which heat and work are positive.
  • define the terms closed system, open system, isothermal process and adiabatic process.
  • solve the energy balance for a given closed system.
  • derive the steady state mechanical energy balance equation for an open system.
  • solve combustion problems.

  • Info on the Institution
  • Name and Adress
  • Academic Calendar
  • Academic Authorities
  • General Description
  • List of Programmes Offered
  • General Admission Requirements
  • Recognition of Prior Learning
  • Registration Procedures
  • ECTS Credit Allocation
  • Academic Guidance
  • Info on Degree Programmes
  • Doctorate Degree / Proficieny in Arts
  • Master's Degree
  • Bachelor's Degree
  • Associate Degree
  • Open&Distance Education
  • Info for Students
  • Cost of living
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  • Facilities for Special Needs Students ı
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  • International Programmes r
  • Practical Information for Mobile Students
  • Language courses
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