Institute of Graduate Studies and Research

Environmental Sciences (MSc)

Duration 2 Years
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About the Program

The aim of the Environmental Engineering postgraduate program is to help students graduate with the ability to find solutions to complex environmental problems. The program also aims to bring the students up-to-date with knowledge and skills needed to apply the foundations of science to be able to improve the environmental conditions of the society for a healthier and higher life quality. The students will be able to form databases on pollutants with an impact on the environment by conducting laboratory studies and field work. Moreover, they can work on understanding, making and improving the environmental laws and regulations as well as determining standards for public and private industrial sectors. It is expected that the graduates of this program would be able to evaluate the environmental issues through economical, legal, social and sustainability perspectives, and possess the knowledge to design and apply projects to solve environmental problems.

Education Opportunities

The Department of Environmental Sciences at Cyprus International University aims to train students to be able to work in the design, operation, supervision and construction of engineering structures and systems that can ensure the recover degraded nature and prevent pollution. Throughout the four-year course students undertake courses and projects in the main topics of water and waste water treatment plants, water networks, design of transmission lines, solid waste control, modeling and control of air pollution, environmental management and planning and noise pollution control. Students study theory, practical lessons and graduation projects in the analysis laboratory, computer rooms and library. Environmental engineers have an important role in making the world a better place to live in and achieving the objectives of sustainable development. Students receive an education in line with these goals, understanding the importance of their profession.

ciu-environmental-engineering-phd

Career Areas

The students, who graduated from Environmental Sciences Master’s Program, can continue their career both in academic and industrial fields. Research centers, universities, public and private laboratories, consultancy and design companies, public and private statistical departments, ministries, environmental impacts assessment units, municipalities and non-governmental organizations are among the institutions where the students can work after their graduation. In such institutions, graduates can use their critical analytical thinking skills to determine and analyze environmental problems, find effective solutions to such problems while investigating the applicability and efficiency of the proposed solutions. The graduates can also continue for a Ph.D. degree so that they would be able to work at prestigious universities as lecturers and researchers and contribute to the scientific world with their quality research studies.

Contact

Institute of Graduate Studies and Research
Graduate Sciences and Education Center, GE106
Tel: +90 392 671 1111 Extension: 2214-2228
Institute E-mail: ciu-institute@ciu.edu.tr

Compulsory modules

First Semester
ELECTIVE I

Course code

ENVS5X1

Credit

3

Theoretical

3

Practical

0

Ects

ELECTIVE II

Course code

ENVS5X2

Credit

3

Theoretical

3

Practical

0

Ects

ELECTIVE III

Course code

ENVS5X3

Credit

3

Theoretical

3

Practical

0

Ects

ELECTIVE VI

Course code

ENVS5X6

Credit

3

Theoretical

3

Practical

0

Ects

Second Semester
SEMINAR

Course code

ENVS590

Credit

0

Theoretical

0

Practical

0

Ects

Seminar presentation and group discussions on selected topics related to the Environmental Science.
ELECTIVE IV

Course code

ENVS5X4

Credit

3

Theoretical

3

Practical

0

Ects

ELECTIVE V

Course code

ENVS5X5

Credit

3

Theoretical

3

Practical

0

Ects

ELECTIVE VII

Course code

ENVS5X7

Credit

3

Theoretical

3

Practical

0

Ects

Third Semester
THESIS

Course code

ENVS500

Credit

0

Theoretical

0

Practical

0

Ects

Supervised independent research on a topic agreed between the student and the supervisor (a faculty member) and approved by the Administrative Committee of the Institute of Graduate Studies and Research. It is evaluated by a jury of two faculty members and one from other universities.

Optional modules

ENVIRONMENTAL ENGINEERING CHEMISTRY II

Course code

ENVE202

Credit

0

Theoretical

0

Practical

0

Ects

8
Environmental Engineering Chemistry II course deals with Wastewater Quality Parameters, such as Dissolved Oxygen, Chemical Oxygen Demand (COD), Biochemical Oxygen Demand (BOD), Total Organic Carbon, or shortly the Organic Compounds in Water and Wastewater. It is also important to have information about Oil and Grease, Nitrogen, Sulfate, Phosphorus and Phosphate, Surfactants, Trace Contaminants, Toxicity, Heavy Metals. In this course students learn about Gas Analysis, Instrumental Analysis - Gas, Liquid, Ion Chromatography and other instrumental analysis devices. The course further helps the students to understand the pollution concept and how to express and use them to find solutions to the environmental pollution.
ENVIRONMENTAL ENGINEERING CHEMISTRY I

Course code

ENVE201

Credit

0

Theoretical

0

Practical

0

Ects

ADVANCED AIR POLLUTION

Course code

ENVS509

Credit

3

Theoretical

3

Practical

0

Ects

Meteorology for air pollution modelling and control; physical and thermodynamical properties of the atmosphere, equations of motion, hydrostatic equation, continuity equation, geostrophic approximation, geopotential height, thermal wind, baroclinic and barotrophic atmosphere, atmospheric stability and inversions. Air pollutant concentration models; fixed-box models, diffusion models. Control of primary particulates. Control of sulfur oxides and nitrogen oxides.
HAZARDOUS AND TOXIC WASTES-TREATMENT AND CONTROL

Course code

ENVS505

Credit

3

Theoretical

3

Practical

0

Ects

Definition of the problem. Hazardous waste concept. Definition of the hazardous waste. Determination methods of hazardous waste. Criteria of hazardous waste for determination. Listing. Hazardous waste impoundment. Hazardous waste management. Transportation of hazardous waste. Management, treatment and disposal. Incineration and treatment technologies. Land-filling and disposal strategies. Determination of the hazardous waste sites. Site planning. Deep well injection. Disposal to spent mine.
ADVANVED TECHNIQUES OF ENVIRONMENTAL ENGINEERING ANALYSIS

Course code

ENVS528

Credit

3

Theoretical

3

Practical

0

Ects

The course is designed to give participants a thorough training in modern environmental analytical techniques, with special regard to solving problems such as arise and it gives an introduction to the real world of environmental work while understanding the data collection process.
RESEARCH METHODS

Course code

EMNT525

Credit

3

Theoretical

3

Practical

0

Ects

0
This course is designed to be a background pass to graduate studies. The ability to formulate a research question, finding the data relevant to research questions, analyze those data, and presentation of research findings are skills that will be acquired through this course. Scientific thinking skills and methods of research, using library and online archives, experimental design, and presenting quantitative data are modules covered within the scope of this course. Scientific communication, writing research proposals, scientific reporting and thesis writing are also supported. Conference presentations, time management in research projects, ethical issues, plagiarism and skills of working in a group and networking are also highlighted throughout the semester.
REMOVAL OF ORGANICS FROM WATER

Course code

ENVS513

Credit

3

Theoretical

3

Practical

0

Ects

Discusses the measurement and removal of organics such as humic substances, phenol, cresols, carbohydrates, fats, proteins, grease, surfactants, oils, pesticides, toxic and non-biodegradable soluble organics typically found in water and waste waters. Covers the removal methods such as carbon adsorption, biological treatment, chemical oxidation and advanced oxidation processes as well as the removal in natural systems.
ECOLOGY

Course code

ENVS502

Credit

3

Theoretical

3

Practical

0

Ects

This course will review major ecological concepts, identify the techniques used by ecologists, provide an overview of local and global environmental issues, and examine individual, group and governmental activities important for protecting natural ecosystems. The course has been designed to provide technical information, to direct the student toward pertinent literature, to identify problems and issues, to utilize research methodology for the study of natural ecosystems, and to consider appropriate solutions and analytical techniques. Discussion and understanding will be emphasized.
INDUSTRIAL WASTE TREATMENT

Course code

ENVS523

Credit

3

Theoretical

3

Practical

0

Ects

The source, characteristics and treatment techniques of wastewater generated from various industries. The characterization of industrial wastewater, purpose of treatment and regulations. The detection of the wastewater amount. Waste minimization by changing the processes. Modeling the flow and variability of wastewater. Equalization and flow design. The design of unit processes including physical, chemical and biological processes. Liquid-solid separation by sedimentation, DAF, and filtration. The investigation of wastewater treatment plant process flow diagrams of selected industries.
ENVIRONMENTAL BIOTECHNOLOGY

Course code

ENVS525

Credit

3

Theoretical

3

Practical

0

Ects

The course aim is to provide the students with information on the application of biological processes in environmental technology. Environmental biotechnology covers the use of microorganisms in biotechnological processes such as sewage and industrial wastewater treatment, solid waste degradation, soil purification, bioremediation of sites contaminated with hazardous materials, enhancement of the quality of drinking water, biodegradation, bioconversion, biorecovery, biological detoxification.
ADVANCED OXIDATION PROCESSES

Course code

ENVS512

Credit

3

Theoretical

3

Practical

0

Ects

Advanced oxidation processes (AOPS) are a combination ozone, hydrogen peroxide, UV light, and catalysts to oxidize chemical compounds that can not be removed by the simple oxidation techniques. The class focuses on AOPs such as UV/O3, UV/H2O2, UV/TiO2, O3/H2O2, O3/FeOH, etc. It discusses the advantages and limitations of AOPs, and the effect of water quality parameters on the efficiency of AOPs.
CALCULUS I

Course code

MAT101

Credit

0

Theoretical

0

Practical

0

Ects

INTRODUCTION TO PROBABILITY AND STATISTICS

Course code

MAT205

Credit

0

Theoretical

0

Practical

0

Ects

PHYSIOLOGY FOR ENGINEERS

Course code

BIOE513

Credit

3

Theoretical

3

Practical

0

Ects

This course will teach students to apply knowledge of mathematics, science, and engineering to cellular and systems physiology, including function, dysfunction, and the mechanisms that underlie treatment. The course will also addresses professional and ethical responsibility associated with the development, testing, and implementation (or withholding) of biomedical devices or treatments. The techniques, skills and tools necessary for engineering practice will be covered in addition to teach students to design, conduct, and analyze experiments. Topics may include the nervous system, striated and smooth muscle, and respiratory, renal, and cardiovascular systems.
ENVIRONMENTAL ENGINEERING ANALYTICAL CHEMISTRY

Course code

ENVE104

Credit

0

Theoretical

0

Practical

0

Ects

In chemical terms water is a dilute solution of various compounds. It can also hold suspensions of several organic and inorganic compounds. This course is about the interactions between these compounds. During this course intermolecular forces (dipole-dipole, ion-dipole, hydrogen bonding, dispersion forces) and the properties of solutions topics are discussed in detail. This course aims understanding of chemical phenomena that occur in water in order to find solutions for water pollution, and also water and wastewater related environmental engineering problems. Principles and applications of chemical equilibria, acid-base reactions, solubility, complex formation, and redox reactions are mainly discussed in this course.
STATISTICAL METHODS IN BIO&ENVIRONMENTAL SCIENCES

Course code

ENVS541

Credit

3

Theoretical

3

Practical

0

Ects

The main topics of this course are: numerical summary statistics, graphical summary techniques, probability theory, probability distributions, mathematical expectation, special probability distributions (bernoulli, binom, poisson), probability density functions (gama, exponantial, chi-square), linear regression and correlation, excell and spss applications, sampling distributions, hypothesis testing.
SPECIAL TOPICS IN ENVIRONMENTAL SCIENCES II

Course code

ENVS539

Credit

3

Theoretical

3

Practical

0

Ects

8
Various advanced level topics will be covered on environmental sciences, according to the need of students and interest of the instructor.
TECHIQUES IN MOLECULAR BIOENGINEERING

Course code

BIOE501

Credit

3

Theoretical

3

Practical

0

Ects

This course will teach principles of wet lab for molecular biology, applying them to particular cell models, and general molecular biology laboratory procedures and safety implications. Student will be introduced to PCR, gel electrophoresis, imaging, Western blotting and site-directed mutagenesis techniques.
ANAEROBIC BIOTECHNOLOGY FOR INDUSTRIAL WASTEWATERS

Course code

ENVS507

Credit

3

Theoretical

3

Practical

0

Ects

ADVANCED WASTEWATER TREATMENT

Course code

ENVS519

Credit

3

Theoretical

3

Practical

0

Ects

WATER CHEMISTRY

Course code

ENVS501

Credit

3

Theoretical

3

Practical

0

Ects

The Dynamic Nature of Chemical Equilibrium. The Thermodynamic Basis of Chemical Equilibrium. Nonideal Behaviour of Ions and Molecules in Solution. Acid-Base Chemistry. Coordination Chemistry. Precipitation and Dissolution, Oxidation Reduction Reactions.
TECHNIQUES IN TISSUE CULTURE AND CELLULAR BIOENGINEERING

Course code

BIOE502

Credit

3

Theoretical

3

Practical

0

Ects

This is a course will begin with introducing practical skills for the isolation of animals cells for in vitro studies, maintenance of animal cells in vitro, manipulation of animal cells in vitro, and application of molecular techniques to in vitro situations. This course also designed to bridge cell biology with engineering. At the completion of this course, the students should be able to: Discuss the molecular and cellular basis of life from an engineering perspective, identify crucial molecular parameters involved in cellular events measure and manipulate molecular parameters experimentally, apply engineering principles, concepts, and mathematical modelling in studying molecular parameters, cell structure, function, and appropriately capture the salient features of the cellular phenomena. In addition, the students should be able to manipulate the behaviour of biological cells, examine structure-function relationship and explore and criticize the existing and emerging technologies that exploit and extend our knowledge of molecular and cell biology.
ENERGY - PAST, PRESENT & FUTURE

Course code

ENRE501

Credit

3

Theoretical

3

Practical

0

Ects

0
ENERJİ - GEÇMİŞ, BUGÜN & GELECEK
FERMENTATION MICROBIOLOGY

Course code

BIOE531

Credit

3

Theoretical

3

Practical

0

Ects

BIOSENSORS

Course code

BIOE507

Credit

3

Theoretical

3

Practical

0

Ects

This course will cover the principles, technologies, methods and applications of biosensors and bioinstrumentation. The objective of this course is to link engineering principles to understanding of biosystems in sensors and bioelectronics. It will provide the student with detail of methods and procedures used in the design, fabrication and application of biosensors and bioelectronic devices. The fundamentals of measurement science are applied to optical, electrochemical, mass, and pressure signal transduction. Upon successful completion of this course, students are expected to be able to explain biosensing and transducing techniques, design and construct biosensors instrumentation.
LABORATORY APPLICATIONS IN ENVIRONMENTAL AND BIO TECHNOLOGIES

Course code

ENVS540

Credit

3

Theoretical

3

Practical

0

Ects

The course covers the topics of; general laboratory safety procedures and rules, introduction to general laboratory materials and glasswares used in environmental and biotechnology related studies, applications and operation of analytical and coarse balance and sampling techniques, application and operation of automatic pipettes, preparation of stock and diluted sample solutions and utilization of hood, applications and operations of pH-meter, applications and operations of oven, incubator and stirrer, applications and operations of centrifuge, cleaning procedures of glasswares and laboratory equipment and applications of several portable devices (Termostat, UV-visible spectrometer, Conductimeter, Turbidimeter) used in environmental and biotechnology related studies.
BIONANOTECHNOLOGY

Course code

BIOE522

Credit

3

Theoretical

3

Practical

0

Ects

BIOTECHNOLOGY

Course code

BIOE535

Credit

3

Theoretical

3

Practical

0

Ects

GENETIC ENGINEERING

Course code

BIOE510

Credit

3

Theoretical

3

Practical

0

Ects

The course is designed to cover the basic principles of classical and molecular genetics. Model systems for genetic analysis such as Drosophila melanogaster, Neurospora crassa, and pea and maize will be covered. The course covers a detailed description of the structure and function of nucleic acids. This includes replication and regulation with emphasis on genetic diseases, mutations, and genetic engineering and its applications, including gene therapy and genetically modified organisms, will be emphasized.
TISSUE ENGINEERING

Course code

BIOE512

Credit

3

Theoretical

3

Practical

0

Ects

This course will focus on the selection, processing, testing and performance of materials used in biomedical applications with special emphasis upon tissue engineering. Topics include material selection and processing, mechanisms and kinetics of material degradation, cell-material interactions and interfaces; effect of construct architecture on tissue growth; and transport through engineered tissues. Examples of engineering tissues for replacing cartilage, bone, tendons, ligaments, skin and liver will be presented. Nanotechology will also be covered.
ADVANCED GENERAL CHEMISTRY

Course code

CHEM501

Credit

3

Theoretical

3

Practical

0

Ects

This course presents a comprehensive overview of fundamental chemistry concepts, with particular emphasis on those that are identified as competency goals in the Standard Course of Study. The course will follow an inquiry-based approach, and demonstrate the acquisition of scientific knowledge through the interpretation of experimental data. It is designed for postgraduate students who will learn types of matter, measurements, properties of substances; atoms and atomic theory, components of the atom, introduction to the periodic table, molecules and ions, formulas and naming ionic compounds, the mole, mass relations, measurements on gases, the ideal gas law, gas law calculations, stoichiometry of gaseous reactions, quantum numbers, electron configurations in atoms, polarity, principles and measurements of heat flow, calorimetry, thermo-chemical equations, enthalpies of formation.
TOTAL QUALITY MANAGEMENT

Course code

EMNT502

Credit

3

Theoretical

3

Practical

0

Ects

REMOVAL OF ORGANICS FROM WATER

Course code

ENVE513

Credit

3

Theoretical

3

Practical

0

Ects

Discusses the measurement and removal of organics such as humic substances, phenol, cresols, carbohydrates, fats, proteins, grease, surfactants, oils, pesticides, toxic and non-biodegradable soluble organics typically found in water and waste waters. Covers the removal methods such as carbon adsorption, biological treatment, chemical oxidation and advanced oxidation processes as well as the removal in natural systems.
ADVANCED TECHNIQUES OF ENVIRONMENTAL ENGINEERING ANALYSIS

Course code

ENVE528

Credit

3

Theoretical

3

Practical

0

Ects

Aims to understand the working principles of modern analytical instruments, and how they can be used to solve analytical problems encountered in environmental engineering. Includes optical methods, ultra violet, visible, infrared, X ray absorption, emission and flame spectroscopy, selective ion electrodes, mass spectroscopy, gas and liquid chromatography theory and applications, total organic carbon analyzer, electrical separation methods. Laboratory experiments.
SPECTROSCOPIC METHODS IN CHEMISTRY

Course code

CHEM503

Credit

3

Theoretical

3

Practical

0

Ects

ADVANCED AIR POLLUTION

Course code

ENVE509

Credit

3

Theoretical

3

Practical

0

Ects

This course is about air pollution effects, measurements, emission estimates, meteorology and modeling. Topics covered are air pollution meteorology; physical and thermodynamic properties of the atmosphere, equations of motion, hydrostatic equation, continuity equation, geostrophic approximation, atmospheric stability and inversions / air pollutant concentration models; fixed-box models, diffusion models.
ADVANCED ANALYTICAL TECHNIQUES

Course code

CHEM508

Credit

3

Theoretical

3

Practical

0

Ects

ORGANIZATION AND MANAGEMENT

Course code

MISY513

Credit

3

Theoretical

3

Practical

0

Ects

ADVANCED WASTEWATER TREATMENT

Course code

ENVE519

Credit

3

Theoretical

3

Practical

0

Ects

TECHNO-ECONOMICAL ANALYSIS OF ENERGY APPLICATIONS

Course code

ENRE502

Credit

3

Theoretical

3

Practical

0

Ects

BIOSEPERATIONS

Course code

BIOE506

Credit

3

Theoretical

3

Practical

0

Ects

In this course the separation of proteins, nucleic acids, and oligonucleotides from biological matrices is covered from analytical to process scales. Also in this course, the separation of monoclonal antibodies, which have found numerous uses as therapeutic and diagnostic agents will be covered. Analytical techniques include an interesting montage of chromatographic methods, capillary electrophoresis, isoelectric focusing, and mass spectrometry. Among separation and purification methods, liquid-liquid distribution, displacement chromatography, expanded bed adsorption, membrane chromatography, and simulated moving bed chromatography will be covered at length. Regulatory and economic considerations will be addressed, as are plant and process equipment and engineering process control. Application of DNA chip arrays, proteomics as well as evolving methodologies for a large number of drugs that are under development for treatment of cancer, AIDS, rheumatoid arthritis, and Alzheimer's disease will be discussed.
PROTEING ENGINEERING

Course code

BIOE520

Credit

3

Theoretical

3

Practical

0

Ects

COMPUTER APPLICATIONS IN HYDRAULICS

Course code

CVLE517

Credit

3

Theoretical

3

Practical

0

Ects

BIOTECHNOLOGY

Course code

ENVS520

Credit

3

Theoretical

3

Practical

0

Ects

ECOLOGY

Course code

BIOE526

Credit

3

Theoretical

3

Practical

0

Ects

FUNDAMENTALS OF ENERGY SYSTEMS OPTIMIZATION

Course code

ENRE533

Credit

3

Theoretical

3

Practical

0

Ects

INTRODUCTION TO PROBABILITY AND STATISTICS

Course code

MATH205

Credit

0

Theoretical

3

Practical

0

Ects

The objective of this course is to introduce basic probability concepts and basic statistics. The focus of this course is on both applications and theory. Topics include: introduction to random variables, simple data analysis and descriptive statistics, frequency distribution, cumulative distribution, sample space, events, counting sample points (basic combinatorics), probability of an event, probability axioms, laws of probability, conditional probability, Bayes’ rule, discrete and continuous random variables, probability distributions, cumulative probability distributions, discrete and continuous probability distributions, discrete uniform, Binomial, Geometric, Hypergeometric, Poisson, Continuous uniform, Normal Disributions, Gamma and Exponential distribution, jointly distributed random variables, expectation and covariance of discrete and continuous random variables, random sampling, sampling distributions, distribution of Sample Mean, Central Limit Theorem(CLT).
MANAGEMENT INFORMATION SYSTEMS

Course code

MISY523

Credit

3

Theoretical

3

Practical

0

Ects

ORGANIZATIONAL COMMUNICATIONS

Course code

BUSN558

Credit

3

Theoretical

3

Practical

0

Ects

HAZARDOUS AND TOXIC WASTES - TREATMENT AND CONTROL

Course code

ENVE505

Credit

3

Theoretical

3

Practical

0

Ects

INDUSTRIAL WASTE TREATMENT

Course code

ENVE523

Credit

3

Theoretical

3

Practical

0

Ects

The source, characteristics and treatment techniques of wastewater generated from various industries. The caracterization of industrial wastewater, purpose of treatment and regulations. The detection of the wastewater amount. Waste minimization by changing the processes. Modeling the flow and variability of wastewater. Equalization and flow design. The design of unit processes including physical, chemical and biological processes. Liquid-solid separation by sedimentation, DAF, and filtration. The investigation of wastewater treatment plant process flow diagrams of selected industries.
MEDIA AND INTERNATIONAL CONFLICT

Course code

INRE561

Credit

3

Theoretical

3

Practical

0

Ects

The course examines the cultural, political and economic dimensions of media responses and media coverage of the international conflicts through assessment of different theoretical approaches. The course also provides necessary methodological skills to graduate students in order to comprehend and assess specific cases of media’s involvement in the international conflicts at different level. Topics include war and peace journalisms, politics and economy of conflict reporting and the role of media in conflict resolution. The “conset manufacturing” effect of the global mainstream media in relation to the apprehension of the global terrorism will also be monitored during the courses.
OPTICAL IMAGING TECHNIQUES

Course code

BIOE504

Credit

3

Theoretical

3

Practical

0

Ects

Students will attend lectures on the theory and underpinnings of optical imaging techniques in bioengineering, including light, fluorescent and electron microscopy and imaging. Emerging techniques such as “optogenetics” will also be covered. Practical instruction will be given in the use of light, fluorescent and electron microscopes, with samples prepared by the students.
STATISTICS AND DATA ANALYSIS

Course code

BIOE505

Credit

3

Theoretical

3

Practical

0

Ects

Probability Theory: Experiments and outcomes; random variables, probability, probability density & mass functions; conditional probability, joint probability. Bayes' theorem. Standard distributions. Estimating properties of distributions: mean and variance, skewness and kurtosis. Goodness of fit of experimental data to distributions: chi-squared test, tests for normal distributions. Two populations: mixture models, t-tests, paired and unpaired. F-tests. Bonferroni correction; Analysis of variance (ANOVA). Parametric vs non-parametric statistics. Regression: Univariate and multivariate regression; significance testing on linear regression; Pearson correlation coefficient; stepwise regression; nonlinear regression. Sampling methods: Sampling from distributions, Monte-Carlo methods, bootstrapping. Time series: Notation, types of time series, simple time-series descriptors. Cross and auto-correlation. Trend removal. Linear filtering. The DFT and its applications. Inference: Bayesian methods. Decision boundaries. Bayesian and neural networks. PCA and KL transforms. MAP and ML decisions.
MANAGEMENT SCIENCE

Course code

MISY555

Credit

3

Theoretical

3

Practical

0

Ects

ORGANIC CHEMISTRY

Course code

ENVE102

Credit

0

Theoretical

0

Practical

0

Ects

This course is designed for faculty of engineering and pharmacy students. At the end of the course the learner is expected to be able to name organic compounds, predict basic structure reactivity relationships, design simple syntheses of basic classes of organic compounds, describe some organic reaction mechanisms and have some insight to the principles of stereochemistry. The objective of the course is to introduce basic reaction types, reaction mechanisms of functional groups, of organic compounds like alkanes, alkenes, alkynes, benzene and aromatic hydrocarbons, alkyl halides, alcohols, ethers, epoxides, thiols, the carbonyl groups, aldehydes, and ketones, carboxylic acids and their derivatives, amines. Theoric information is given to the students using lecture notes, demonstrations, example questions and group discussions.
ENVIRONMENTAL ENGINEERING UNIT PROCESSESS

Course code

ENVE302

Credit

0

Theoretical

0

Practical

0

Ects

The objective of this course is to teach the students the principal wastewater constituents of concern and the fundamentals of the processes involved in biological wastewater treatment. The course content includes the role of microorganisms in biological wastewater treatment, composition and classification of microorganisms, kinetics of bacterial growth, process description of aerobic biodegradation of organic matter, details of activated sludge process, and fundamentals of nitrification, denitrification and biological phosphorus removal. An insight to suspended growth, attached growth, ponds and lagoon systems will be given. The course uses lecture notes and discussions for the theoretical information, exercises and tutorials learning to use the theory in practice and a field trip to a wastewater treatment plant to do visual observations.
ENVIRONMENTAL ENGINEERING UNIT OPERATIONS

Course code

ENVE301

Credit

0

Theoretical

0

Practical

0

Ects

The objective of this course is to teach the students the principal surface and ground water constituents of concern and the fundamentals of the operations involved in water and wastewater treatment. The course content includes the reactions kinetics, types of reactors, mass and material mass balance and the fundamentals of gas transfer included in aeration and gas stripping, mixing, coagulation, flocculation, sedimentation, filtration and disinfection. An insight will be given for batch, continuous flow stirred tank, cascade of complete mix, plug flow and packed bed reactors. The course uses lecture notes and discussions for the theoretical information, exercises and tutorials learning to use the theory in practice and a field trip to a drinking water treatment plant to do visual observations.
DESIGN OF ZERO EMISSION 100% RENEWABLE CITIES

Course code

ENRE537

Credit

3

Theoretical

3

Practical

0

Ects

Students who are interested in pursuing advanced graduate studies leading to a master’s, doctoral degree, or professional doctorate degree for the Fall and Spring semesters every year. Applicants can directly apply online to our graduate programs using the application portal.

TR Applicants- Required documents:

  • Bachelor’s Degree Diploma
  • Bachelor’s Degree transcripts for each completed academic term/year.
  • Valid ALES result document (must not exceed 5 years),
  • Documents to prove English proficiency for English language departments,
  • Scanned copy of passport or identity card.

Click for detailed admission requirements information.

TRNC Applicants- Required documents:

  • Bachelor’s Degree Diploma
  • Bachelor’s Degree transcripts for each completed academic term/year.
  • Documents to prove English proficiency for English language departments,
  • Scanned copy of passport or identity card.

Click for detailed admission requirements information.

Students who are interested in pursuing advanced graduate studies leading to a master’s, doctoral degree, or professional doctorate degree for the Fall and Spring semesters every year. Applicants can directly apply online to our graduate programs using the application portal.

International Applicants- Required documents;

  • Bachelor’s Degree Diploma
  • Bachelor’s Degree transcripts for each completed academic term/year.
  • Evidence of English Language competence: TOEFL (65 IBT) or IELTS (5.5). Students without these documents will take the CIU English proficiency exam on campus following arrival.
  • Scanned copy of international passport/birth certificate
  • CV
  • Fully completed and signed CIU Rules and Regulations document (which can be downloaded during the online application)

Click for detailed admission requirements information.

Cyprus International University provides academic scholarships for its students as an incentive for success, with most students benefiting from 50%, 75% or 100% scholarships or discounted tuition fees. Click for more information.

Fee pe​r course     € 350,00
Fee for thesis     € 1.050,00
Fee for seminar     € 120,00 
Scientific Foundation per course     € 150,00
Registration and other fees* € 245,00
Student Union fee € 50,00    
  VAT Exc.

*Applies to 1st. Year students. € 195,00 for others.

There will be an additional bench fee of € 335 (exc. VAT) for this program for the usage of test kits.