361-0903/03 – Transfer Phenomena (TP)

Gurantor departmentDepartment of Power EngineeringCredits10
Subject guarantorprof. Ing. Stanislav Honus, Ph.D.Subject version guarantorprof. Ing. Stanislav Honus, Ph.D.
Study levelpostgraduateRequirementChoice-compulsory type B
YearSemesterwinter + summer
Study languageEnglish
Year of introduction2010/2011Year of cancellation
Intended for the facultiesFBI, FS, HGFIntended for study typesDoctoral
Instruction secured by
LoginNameTuitorTeacher giving lectures
HON106 prof. Ing. Stanislav Honus, Ph.D.
KOL40 prof. Ing. Pavel Kolat, DrSc.
Extent of instruction for forms of study
Form of studyWay of compl.Extent
Full-time Examination 25+0
Part-time Examination 25+0

Subject aims expressed by acquired skills and competences

Steady- state conduction-one dimension: heat source systems, conduction- convection systems. Unsteady-state conduction: lumped heat-capacity formulation. Principles of convection: Empirical and practical relations for forced-convection heat transfer. Natural-convection systems, Radiation heat transfer. Condensation and boiling heat transfer. Heat exchangers. Mass transfer: I, II Fickś law of diffusion, the mass- transfer coefficient, evaporation processes in the atmosphere. Theory of similarity: dimensionless groups in the heat and mass transfer.

Teaching methods

Lectures
Individual consultations
Project work

Summary

Steady- state conduction-one dimension: heat source systems, conduction- convection systems. Unsteady-state conduction: lumped heat-capacity formulation. Principles of convection: Empirical and practical relations for forced-convection heat transfer. Natural-convection systems, Radiation heat transfer. Condensation and boiling heat transfer. Heat exchangers. Mass transfer: I, II Fickś law of diffusion, the mass- transfer coefficient, evaporation processes in the atmosphere. Theory of similarity: dimensionless groups in the heat and mass transfer.

Compulsory literature:

INCROPERA, Frank P. Principles of heat and mass transfer. 7th ed., international student version. Singapore: Wiley, c2013. ISBN 978-0-470-64615-1 MODEST, M. Radiative Heat Transfer. McGraw-Hill, Inc. New York, 2003. ISBN 0-07-042675-9, 850 s. WELTY, James R., Gregory L. RORRER a David G. FOSTER. Fundamentals of momentum, heat, and mass transfer. 6th edition. Hoboken: Wiley, [2015]. ISBN 978-1-118-94746-3.

Recommended literature:

KAKAÇ, Sadik, YENER, Yaman, PRAMUANJAROENKIJ, Anchasa. Convective heat transfer. 3rd ed. Boca Raton: CRC Press, c2014. ISBN 978-1-4665-8344-3. MAJUMDAR, Pradip. Computational methods for heat and mass transfer. New York: Taylor & Francis, c2005. Series in computational and physical processes in mechanics and thermal sciencies. ISBN 1-56032-994-7. LEAL, L. Gary. Advanced transport phenomena: fluid mechanics and convective transport processes. New York: Cambridge University Press, 2007. Cambridge series in chemical engineering. ISBN 978-0-521-84910-4.

Way of continuous check of knowledge in the course of semester

Presentation of seminar paper and oral exam

E-learning

Other requirements

Other request for students are not defined

Prerequisities

Subject has no prerequisities.

Co-requisities

Subject has no co-requisities.

Subject syllabus:

1.Headline laws and analogies of transport phenomena. 2.Transfer of momentum, Euler, Navier Stokes and Bernoulli equation. 3.Transfer of energy, shell balance. 4.Fourier Kirchhoff equation, the choice of initial and boundary conditions. 5.Transfer of mass I. Fick's law. 6. II. Fick's law of diffusion, 7.Theory similarities and modelling sentence similarity, basic methods of similarity theory. 8. Analysis of momentum, energy and mass 9.Non-stacionary heat conduction, analytical solutions. 10.Numerical methods for solving unsteady heat transfer, explicit and implicit method. 11.Natural and forced convection. 12.Heat exchangers, numerical solutions of heat transfer, plate heat exchangers. 12.Boliling heat transfer, types and modes of boiling. 13.Heat transfer during condensation. 14.Transfer phenomena at the interface. 15th Mathematical modelling of transport phenomena, solving the model calculations Fluent.

Conditions for subject completion

Full-time form (validity from: 2013/2014 Winter semester)
Task nameType of taskMax. number of points
(act. for subtasks)
Min. number of pointsMax. počet pokusů
Examination Examination   3
Mandatory attendence participation:

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Conditions for subject completion and attendance at the exercises within ISP:

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Occurrence in study plans

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2022/2023 (P0719D270006) Transport and Material Handling P English Ostrava Choice-compulsory type B study plan
2022/2023 (P0719D270006) Transport and Material Handling K English Ostrava Choice-compulsory type B study plan
2022/2023 (P2346) Mechanical Engineering (2302V006) Energy Engineering P English Ostrava Choice-compulsory study plan
2021/2022 (P0713D070004) Energy Processes K English Ostrava Choice-compulsory type B study plan
2021/2022 (P0713D070004) Energy Processes P English Ostrava Choice-compulsory type B study plan
2021/2022 (P0719D270006) Transport and Material Handling K English Ostrava Choice-compulsory type B study plan
2021/2022 (P0719D270006) Transport and Material Handling P English Ostrava Choice-compulsory type B study plan
2021/2022 (P2346) Mechanical Engineering (2302V006) Energy Engineering P English Ostrava Choice-compulsory study plan
2020/2021 (P2346) Mechanical Engineering (2302V006) Energy Engineering P English Ostrava Choice-compulsory study plan
2020/2021 (P0713D070004) Energy Processes K English Ostrava Choice-compulsory type B study plan
2020/2021 (P0713D070004) Energy Processes P English Ostrava Choice-compulsory type B study plan
2020/2021 (P0719D270006) Transport and Material Handling P English Ostrava Choice-compulsory type B study plan
2020/2021 (P0719D270006) Transport and Material Handling K English Ostrava Choice-compulsory type B study plan
2019/2020 (P2346) Mechanical Engineering (2302V006) Energy Engineering P English Ostrava Choice-compulsory study plan
2018/2019 (P2346) Mechanical Engineering (2302V006) Energy Engineering P English Ostrava Choice-compulsory study plan
2018/2019 (P2346) Mechanical Engineering (2302V006) Energy Engineering K English Ostrava Choice-compulsory study plan
2017/2018 (P2346) Mechanical Engineering (2302V006) Energy Engineering P English Ostrava Choice-compulsory study plan
2017/2018 (P2346) Mechanical Engineering (2302V006) Energy Engineering K English Ostrava Choice-compulsory study plan
2016/2017 (P2346) Mechanical Engineering (2302V006) Energy Engineering P English Ostrava Choice-compulsory study plan
2016/2017 (P2346) Mechanical Engineering (2302V006) Energy Engineering K English Ostrava Choice-compulsory study plan
2015/2016 (P2346) Mechanical Engineering (2302V006) Energy Engineering P English Ostrava Choice-compulsory study plan
2015/2016 (P2346) Mechanical Engineering (2302V006) Energy Engineering K English Ostrava Choice-compulsory study plan

Occurrence in special blocks

Block nameAcademic yearForm of studyStudy language YearWSType of blockBlock owner

Assessment of instruction



2015/2016 Summer