Lecturer: György Pátzay, Tibor Nagy, Dávid Havasi

Monday 12.15-15.00 F. II. staicase, 2nd floor 11.

On map

Energy and matter.  Atomic structure and bounding forces. Basic knowledge in nuclear energy production, fission and fusion. Types of radioations, alpha, beta gamma, neutron radiations. Detectors and nuclear measuerements. Environmental radioactivity. Dosimetry and radiation protection. Nuclear power plants and nuclear fuel cycles. Radioactive wastes, waste treatments. Future of nuclear energy.

Detailed program of the subject:

Energy and matter.  Atomic structure and bounding forces. Basic knowledge in nuclear energy production, fission and fusion. NPP types, PWR, BWR, Candu, RBMK, 2^nd, 3^rd, 4^th generation types, VVER-440, VVER-1200, primary and secondary water chemistry, fission products, TRU nuclides, activation and corrosion products, nuclear fuel cycles, mining, fuel element production, isotope enrichment, decommissioning, nuclear safety and proliferation. Types of radiations, alpha, beta gamma, neutron radiations. Detectors and nuclear measurements. gas-filled detectors, scintillation and semiconductor detectors nuclear detector electronics, counting and data evaluation, alpha- and gamma-spectrometry analysis methods, NAA, isotope dilution Environmental radioactivity, natural and artificial radioactivity, radioactivity in soil, water, air, construction materials, food, body etc. Dosimetry and radiation protection. absorbed, equivalent and effective doses Nuclear power plants and nuclear fuel cycles. Radioactive wastes, waste treatments. Future of nuclear energy.

Method of education:

lecture slides, animations, student reports, laboratory practices

Requirements of accomplishment of the subject:

1. a)      In the semester: 75% presence
2. In the examination period: succesfull exam
3. Successfully finish laboratory practices

Information on laboratory practices:

Place: Building F.II., top floor, students laboratory (end of corridor)

Monday 12:15 - 15:00

Group A: Neptun codes starting A to E (5 members)

Group B: Neptun codes starting F to Z (6 members)

Lab 1  - Half-life and half-values

Lab 2 - Neutron detection

2019.11.04

- A: Half-life and half-values

- B: Neutron detection

2019.11.11

- A: Neutron detection

- B: Half-life and half-values

Additional possibilities of accomplishment: 

1. Consultations: two times during semester
2. In the examination period:

Course-book and literature:

Karl Heinrich Lieser, Nuclear and Radiochemistry :Fundamenta1s and Applications, Weinheim ; New York ; Basel ;Cambridge : VCH, 1997,ISBN 3-527-29453-8

Attachments:

File	Description	File size
Intro_0.pdf		4074 kB
lab 1 - Neutron detection.pdf		426 kB
lab 2 - Half-life.pdf		622 kB
lecture11.pdf		616 kB
lecture12_0.pdf		522 kB
lecture13.pdf		886 kB
lecture1_0.pdf		1117 kB
lecture2_0.pdf		872 kB
lecture3_0.pdf		1319 kB
lecture4_0.pdf		590 kB
lecture5_0.pdf		514 kB
lecture6_0.pdf		773 kB
lecture7_0.pdf		1387 kB
lecture8_0.pdf		523 kB
lecture9_0.pdf		797 kB
Nuclear Radiation.pdf		139 kB
NuclPower_0.pdf		7811 kB
RadInter_G.pdf		2165 kB

Classes

Tuesday, 14:15-17:00 

8th-14th week:  Ch 305 room

Tests

Test 1: 2019.10.22. 14:15-16:00  QB404

Repeat test 1: 2019.10.30. 8:30-10:00  QB307

Test 2: 2019.12.10. 14:15-16:00  Ch305

Repeat test 2:  2019.12.17. 10:15-12:00   K174

Requirements: min. 40% achievement on each test

Teaching Materials

Attachments:

File	Description	File size
attributes control charts.pdf		274 kB
Ea1.pdf	Lecture 10.09.2019	2634 kB
Ea3.pdf	Lecture 01.10.2019	2595 kB
Ea4.pdf	Lecture 08.10.2019	2432 kB
Lecture_2.pdf	Lecture 17.09.2019	1733 kB
Lecture_5.pdf	Lecture 15.10.2019	1966 kB
MSA.pdf		190 kB
MSA_2019.pdf		639 kB
Process capability 2s_1p.pdf		87 kB
Processcapab_2019.pdf		875 kB
questions.pdf		54 kB
sampling inspection_2019.pdf		455 kB
spc1eng_2019.pdf		1129 kB
spc2eng_2019.pdf		683 kB
Statistical background v2.pdf		387 kB
Tests.docx		23 kB
variables control charts 2s_1p.pdf		365 kB

Aim of the subject:

This is an introductory course to radioactivity, types of radiations, measrements. Topics cover the basics of natural and man-made radioactivity, nuclear energy production, reactors, wastes and waste treatment as well as the analytical and non energetic use of radioactive isotopes

Lecturer: Dr. Pátzay György contact

Attachments:

File	Description	File size
Intro.pdf		4074 kB
lab 1 - Neutron detection.pdf		426 kB
lab 2 - Half-life.pdf		622 kB
lecture1.pdf		1117 kB
lecture11.pdf		616 kB
lecture12.pdf		522 kB
lecture13.pdf		886 kB
lecture2.pdf		872 kB
lecture3.pdf		1319 kB
lecture4.pdf		590 kB
lecture5.pdf		514 kB
lecture6.pdf		773 kB
lecture7.pdf		1387 kB
lecture8.pdf		523 kB
lecture9.pdf		797 kB
Nuclear Radiation.pdf		139 kB
NuclPower.pdf		7811 kB
RadInter_G.pdf		2165 kB

Process Engineering BMEVEKFM211 subject data sheet

Further and concrete information can be reached on moodle. After you registered on Neptun, you will get an invitation code.

Additional literature:

Robin Smith: Chemical Process Design, McGraw-Hill

Robin Smith: Chemical Process Design and Integration, John Wiley & Sons Ltd

Douglas, E.: Industrial Chemical Process Design, McGraw-Hill

F. M. Khoury: Multistage Separation processes, CRC Press

Linnhoff March: Introduction to Pinch Technology, Linnhoff March

F. B. Petlyuk: Distillation Theory and Its Application to Optimal Design of Separation Units, Cambridge Univ. Press

Attachments:

File	Description	File size
ProcEng_II_Synthesis.pdf		787 kB
ProcEng_I_Modelling.pdf		973 kB