Ondokuz Mayıs Üniversitesi Bilgi Paketi - Ders Kataloğu

Ders Öğretim Planı

Ders KoduDers AdıDers TürüYılYarıyılAKTS
IMBM204 Materials Thermodynamics II 927006 2 4 5
Dersin Seviyesi
Lisans
Dersin Amacı
After completing the course, students will1. be able to apply the concept of exergy to qualitatively compare the quality of energy in various forms and perform an exergy analysis on common energy conversion devices using appropriate assumptionsunderstand how thermodynamic cycles are used in our society and be able to perform a quantitative cycle analysis2. be able to develop and solve simple mathematical models of ideal gas mixtures undergoing a thermodynamic process and understand why these processes are important to our society3. be able to use a limited set of thermodynamic property data and fundamental relations to calculate other thermodynamic propertiesbe able to develop and quantitatively analyze simple thermodynamic models of chemical reactions and understand the societal and environmental implications of combustion reactions4. be able to develop and quantitatively analyze simple thermodynamic models for chemical equilibrium5. be able to develop simpler computer models to perform and document thermodynamic analyses6. be able to perform a thermodynamic analysis in a systematic manner and clearly document their work.
Dersin Veren Öğretim Görevlisi/Görevlileri
Dr. Öğretim Üyesi SİNEM ÇEVİK
Öğrenme Çıktıları
  1. Ability to qualitatively assess the quality of energy in various forms.
  2. Ability to calculate the change in exergy for a substance undergoing a process.
  3. Qualitative understanding of how thermal energy is converted into mechanical energy using a power cycle and why this process is important to our society.
  4. Ability to make appropriate assumptions to model chemical reactions.
  5. Ability to solve a thermodynamic problem by systematically applying basic thermodynamic principles and property relations and keeping track of units.
  6. Ability to clearly document an engineering analysis for future reference and easy communication to others, including specifying units.
Öğrenim Türü
Birinci Öğretim
Ön Koşul Dersleri
Materials Thermodynamics I
Önerilen Diğer Husular
Yok
Ders Kitabı / Malzemesi / Önerilen Kaynaklar
David R. Gaskell introduction to the thermodynamics of materials, fourth edition-taylor francis (2003)
Planlanan Öğrenme Aktiviteleri ve Metodları
Dersin Sunulduğu Dil
İngilizce
Staj Durumu
Yok
Dersin İçeriği
Reaction equilibria between condensed materials and a gaseous phase, Oxidation of metals and Ellinghamdiagram, Solution thermodynamics, partial and integral molar quantities, Gibbs-Duhem equation, relativepartial and relative integral molar quantities. Microscopic examination of solutions, ideal non-ideal solutions,excess properties. Gibbs-Duhem integration. Applications to materials systems. Reaction equilibria insolutions.
Haftalık Ders İçeriği
Hafta Teorik Uygulama Laboratuar
1.Phase Law and Phase Equilibrium None None
2.Application of phase rule to one component system Application of phase rule to two- component systemApplication of phase rule to chemical reactions None None
3.Application of Clausius-Clapeyron EquationTrouton ve Richard Kuralı None None
4.Basic terms of Ellingham Diagram None None
5.Usage of Ellingham diagrams in the solution of metallurgical problems None None
6.Introduction to solution thermodynamicsRaoult ve Henry LawActivity of one component of solutionGibbs free energy of solution None None
7.Preperation for the exam. Solving of example problems None None
8.Mid-term None None
9.Free energy change in the formation of a solutionFinding the molar values of the solution by the tangent method None None
10.Introduction to types of solutionIdeal solutionsNonideal solutions None None
11.Normal solutionsDiluted solutions None None
12.Gibbs- Duhem Equation None None
13.Introduction to electrochemistry None None
14.Preperation for the exam. Solving of example problems None None
Değerlendirme
Yarıyıl (Yıl) İçi EtkinlikleriAdetKatkı (%)
Ara Sınav1100
Toplam100
Yarıyıl (Yıl) Sonu EtkinlikleriAdetKatkı (%)
Final Sınavı1100
Toplam100
Yarıyıl (Yıl) İçi Etkinlikleri40
Yarıyıl (Yıl) Sonu Etkinlikleri60
Toplam100
İş Yükü Hesaplaması
EtkinliklerAdetSüresi(saat)Toplam İş Yükü(saat)
Ara Sınav122
Final Sınavı122
Derse Katılım14342
Rehberli Problem Çözümü10440
Ev Ödevi13339
Toplam125