A capstone design course where students apply engineering and science knowledge in a chemical and biological engineering design project. Development, design and management of a project in teams under realistic constraints and conditions. Emphasis on communication, teamwork and presentation skills.
Fluids classification; transport coefficients; momentum transfer and velocity profiles; energy and mass transfer for isothermal and multicomponent systems; mass transfer with chemical reaction; applications for chemical and biological systems.
Kinetics of homogeneous and heterogeneous chemical reactions; catalysts; design of chemical reactors; applications for chemical and biological systems.
Classical thermodynamics: enthalpy, entropy, free energies, equilibria; introduction to statistical thermodynamics to describe the properties of materials; kinetic processes; diffusion of mass, heat, energy; fundamentals of rate processes in materials, kinetics of transformations.
Adsorption on surfaces, structural and dynamic considerations in adsorption, thermodynamics of adsorption, methods for catalyst characterization, pore structure and surface area, surface chemistry of catalysis, metals, highly dispersed catalysts, industrial examples with emphasis on energy production
Crude oil and biomass refining technologies. Fractionation, catalytic- and thermo- cracking, gasoline and diesel upgrading and other side processes in crude oil refining; gasification, pyrolysis, transesterification and condensation processes in biomass refining; economical and environmental factors in refining.
Reconstruction of metabolic network from genome information and its structural and functional analysis, computational models of biochemical reaction networks; system biology in drug discovery and proteomics, flux balance analysis; modeling of gene expression; system biology in artificial intelligence. These concepts will be supported with statistic, thermodynamic, structural biology and learning machine
Fundamental principles and advantages of drug delivery technologies; drug delivery mechanisms; advantages of controlled delivery; administration routes; drug delivery agents; possible modifications of delivery vehicles for specific applications.
Atomic structure, chemical bonds, compounds, solutions, stoichiometry. Electrochemistry, thermodynamics, kinetics, acids and bases, basic organic chemistry.
Atomic and molecular structure, spectroscopy, stoichiometry, chemical thermodynamics, electrochemistry, structure and properties of materials.
Basics of general chemistry and introduction to quantum mechanics including chemical bonding, molecular structure, states of matter and phase transitions, intermolecular interaction, chemical equilibrium, thermodynamics / thermochemistry, acid-base equilibria, materials chemistry and spectroscopy.
Basic principles and units of measurement, S.I. unit for chemical quantity, units of concentration, gravimetric methods of analysis, volumetric methods, titration of polyprotic acid and bases, complexation and pricipitation titrations, elements of electrochemistry, oxidation-reduction titration, electrolysis, potentiometry, conductomery, introduction to analytical separations: column chromatography. Thin layer chromatography, analysis of chromatograms, high performance ion-exchange chromatography.
Bonding, molecular shapes and stereochemistry in organic compounds. Functional groups, reactivity and mechanisms of basic organic reactions, such as nucleophilic and electrophilic substitution, elimination and addition. Principles of organic synthesis, critical reaction parameters and their optimization. Carbonyl compounds, amines, phenols and their reactions. Synthetic polymers and their applications.
Bonding, molecular shapes and stereochemistry in organic compounds. Functional groups, reactivity and mechanisms of basic organic reactions, such as nucleophilic and electrophilic substitution, elimination and addition. Principles of organic synthesis, critical reaction parameters and their optimization. Carbonyl compounds, amines, phenols and their reactions. Synthetic polymers and their applications. Prerequisites : CHEM 102 or consent of the instructor.
Properties of perfect and real gases, the first and second laws of thermodynamics, entropy, free energy, physical transformations of pure materials and simple mixtures, the phase rule and phase diagrams, chemical equilibrium. Lab component.
Quantum mechanics, solution of the particle-in-a-box, harmonic oscillator and hydrogen atom; orbital concepts, the structure of many-electron atoms, molecular orbital theory, molecular symmetry and group theory; rotational, vibrational and electronic spectroscopy.
Advanced level substitution, exchange and elimination reactions, Ionic and free radical reactions of alkenes and alkynes. Conjugated double bonds and their reactions, aromatic structures and nucleophilic aromatic reactions, nucleophilic substitution and exchange reactions of carbonyls, carboxylic acid chemistry, phenol chemistry, reduction and oxidation reactions.
This advanced course will help students to understand fundamental methods used for materials characterization. Students will learn principles and applications of detectors and amplifiers, optical spectroscopy, electron and scanning probe microscopy, X-ray diffraction, fluorescence and spectroscopic methods, surface analysis techniques. Students will be able to use the knowledge in the broad area of materials research. By the end of the course, the students will be able to choose appropriate methods for characterizing each specific type of materials and to treat and analyze the data obtained by such techniques.
Crystal structures, Synthesis methods, determination of crystal structures; imperfections, defects in metals and ceramics, vacancies, substitutional and interstitial impurities, dislocation defects in ionic solids, Phase diagrams.
Basics of grammar and vocabulary, listening, and speaking. Readings include newspapers, poems, and authentic documents. Language labs using multimedia systems are part of the language courses.
Basics of grammar and vocabulary, listening, and speaking. Readings include newspapers, poems, and authentic documents. Language labs using multimedia systems are part of the language courses.
Kalp ve damar sisteminin anatomi ve histolojisi, kalp kası kasılmasının fizyolojisi, damar sisteminin sıvı mekaniği, kana akımı ve kan basıncının yerel ve merkezi kontrolü, toraks, akciğerler ve üst solunum yollarının anatomi ve histolojisi, solumun mekaniği, akciğerlerde havalanma ve kan akımı, solunumun merkezi kontrolü, dolaşım ve solunuma ilişkin elektrik, mekanik, hidrolik ve ısı sistemleri, disseksiyon, model inceleme ve interaktif yazılımlar aracılığıyla bu sistemlerin yapı ve fonksiyonlarının araştırılması.
Importance of strategy and strategic management in today?s competitive environment. Analysis, decision and implementation steps in strategic management. Types of external and internal analysis. Corporate and business strategy. Competency based approach in the formulation of strategy. Successful implementation of strategy and organizing the firm for superior performance.