Main field of study (if applicable) Chemical technology Specialization (if applicable)
Level and form of studies: 1st level, full-time
Kind of subject obligatory
Subject code TCC014004
Group of courses YES
*delete as applicable
Lecture Classes Laboratory Project Seminar
Number of hours of organized classes in University (ZZU)
15 45 15
Number of hours of total
student workload (CNPS) 30 60 60
Form of crediting Examination Crediting with grade
Crediting with grade
For group of courses mark (X) final course
Number of ECTS points 1 2 2
including number of ECTS points for practical (P) classes including number of ECTS points for direct teacher- student contact (BK) classes
0,5 1,5 0,5
*delete as applicable
PREREQUISITES RELATING TO KNOWLEDGE, SKILLS AND OTHER COMPETENCES
12. Introduction to organic chemistry 13. Technical organic chemistry
SUBJECT OBJECTIVES
C1 Introduction to the constitution and properties of coal and coke making. C2 Getting knowledge of methods and principles of determining composition and
coking properties of coal according to the standards.
C3 Getting the elements of knowledge of group and fraction composition of petroleum and technology of hydrocarbon fuel production
C4 Getting knowledge of using natural gas.
SUBJECT EDUCATIONAL EFFECTS Relating to knowledge:
PEK_W01 – has the elements of knowledge about resources and production of fossil fuels and their processing
PEK_W02 – knows the chemical constitution of coal
PEK_W02 – has knowledge of technological properties of coal
PEK_W04 – knows the elements of knowledge about of coke production
PEK_W05 – has the knowledge of crude oil classification and related crude oil processing PEK_W06 – knows the elements of knowledge about technology of hydrocarbon fuel
production
PEK_W07 – has the knowledge of natural gas processing Relating to skills:
PEK_U01 – has capability for determining basic physicochemical and technological properties of coal according to the ISO standards
PEK_U02 – has skills of calculating the parameters characterizing of coal on different basis of coal (as received, dry, dry and ash free basis)
PEK_U03 – has capability for evaluating coal type and coal as energy source
PEK_U04 – has capability of determining the basic physicochemical properties of petroleum and hydrocarbon fuels
PEK_U05 - has capability of evaluating utilizable properties of fuels based on their physicochemical properties
PEK_U06 – has capability of preparing PowerPoin presentation and giving oral presentation PEK_U07 – has capability of preparing elaboration on the topic related with the subject of
seminar.
PROGRAMME CONTENT
Form of classes - lecture Number of hours
Lec 1 Occurrence, reserves and exploitation of lignites and hard coals 1 Lec 2 Coal processing as chemical and energy source 1 Lec 3 The components of coal: moisture and mineral matter. Types of
moisture. Composition of mineral matter occurring in coal.
Determination of moisture and mineral matter of coal. Influence of moisture and mineral matter on the coal processing.
1 Lec 4 The components of coal: organic substance. The elemental
composition of fossil fuels. Functional groups of C, H, N, S and O in the coal structure. The Wiser’s chemical model of coal structure.
1 Lec 5 Technological properties of coal as energy source. Calorific value
and heating value. Classification of coals for energy production. 1 Lec 6 Behavior of coal during devolatilization. Coking properties of coal. 1 Lec 7 Influence of coal rank on the coking properties. Coal classification
according to the types. 1
Lec 8 Coke making technology. Processing of crude coking gas and tar. 1 Lec 9 Occurrence and reserves of petroleum and natural gas. 1 Lec 10 Chemical and technological classification of petroleum. 1 Lec 11 Technological processes related with gasoline production. 1
Lec 12 Technological processes related with diesel oil production. 1 Lec 13 Technological processes related with fuel oil production. 1 Lec 14 Composition of natural gas. Installations for natural gas
processing. 1
Lec 15 Natural gas – energy source, engine fuel and raw material for
chemical industry 1
Total hours 15 Form of classes - laboratory Number of hours
Lab 1 Introduction to laboratory. Getting knowledge of safety according to
the rules of BHP. Division into the laboratory groups. 3 Lab 2 Proximate analysis of coal and biomass. Determination of moisture,
ash and volatile matter. 6
Lab 3 Determination of sulfur in coal and biomass by combustion method
at high temperature with acid-base titration. 6
Lab 4 Determination of caking ability by Roga method (RI) and swelling
index (SI) 6
Lab 5 Properties of fuel fraction. 6
Lab 6 Properties and classification of petroleum. 6
Lab 7 Composition of petroleum and natural gas. 6
Lab 8 Supplementary laboratory classes. 6
Total hours 45
Form of classes - seminar Number of hours
Sem 1 Biomass. Composition, properties and processing. 2 Sem 2 Methods of determining the composition and technological properties of
coal. 2
Sem 3 Coking process. 2
Sem 4 Properties and application of coke. 2 Sem 5 Occurrence, resources and exploration of petroleum.
Sem 6 Primary and secondary petroleum processing. 2
Sem 7 Fuels for transport and oil fuels. 2
Sem 8 Methods for examining physicochemical properties of petroleum and
hydrocarbon fuels. 2
Total hours 15
TEACHING TOOLS USED N1 Lecture with PowerPoint presentation.
N2 Laboratory equipment for determining the physicochemical properties of coal according to the standards.
N3 Laboratory equipment for determining the physicochemical properties of
hydrocarbon fuels according to the standards. Standards for testing and standards for products.
EVALUATION OF SUBJECT EDUCATIONAL EFFECTS ACHIEVEMENT Evaluation F – forming (during semester), C – concluding (at semester end)
Educational effect number Way of evaluating educational effect achievement
P1 (lecture) PEK_W01-PEK_W07 examination
F1 PEK_U01-PEK_U05 test, report
F2 PEK_U01-PEK_U05 grade for experiment performance
P2 (laboratory) Final grade = (0.7 F1 + 0.3 F2)
F1 PEK_U01-PEK_U07 presentation
F2 PEK_U01-PEK_U07 elaboration
P3 (seminar) Final grade = (0.5 F1 + 0.5 F2)
PRIMARY AND SECONDARY LITERATURE
PRIMARY LITERATURE:
[29] B.Roga, K.Tomków, Chemiczna technologia węgla, WNT, Warszawa 1971 [30] Koksownictwo, pod red. H. Zielińskiego, Wydawnictwo Śląsk, Katowice 1986. [31] J.R.Grzechowiak, Fizykochemia ropy naftowej, Wyd. PWr, Wrocław 1987 [32] J.Molenda, Gaz ziemny, WNT, Warszawa 1993.
SECONDARY LITERATURE:
[25] Chemia i fizyka węgla, red. S. Jasieńko, Wyd. PWr, Wrocław 1995.
[26] Edward Grzywa, Jacek Molenda, Technologia podstawowych syntez organicznych, t.2 WNT, Warszawa 2000.
SUBJECT SUPERVISOR
(NAME AND SURNAME, E-MAIL ADDRESS)
MATRIX OF CORRELATION BETWEEN EDUCATIONAL EFFECTS FOR SUBJECT
Chemical technology – Raw materials and energy carriers AND EDUCATIONAL EFFECTS FOR MAIN FIELD OF STUDY
Chemical technology
Subject educational
effect
Correlation between subject educational effect and educational effects defined for main field of study
and specialization (if applicable)**
Subject objectives*** Programme content*** Teaching tool number*** (knowledge)
PEK_W01 K1Atc_W15, T1A_W03 C1 Lec1-8 N1
PEK_W02 K1Atc_W15, T1A_W03 C1 Lec1-8 N1
PEK_W03 K1Atc_W15, T1A_W03 C1 Lec1-8 N1
PEK_W04 K1Atc_W15, T1A_W03 C1 Lec1-8 N1
PEK_W05 K1Atc_W15, T1A_W03 C3, C4 Lec9-15 N1
PEK_W06 K1Atc_W15, T1A_W03 C3, C4 Lec9-15 N1
PEK_W07 K1Atc_W15, T1A_W03 C3, C4 Lec9-15 N1
(skills) PEK_U01
K1Atc_U22, T1A_U08, InzA_U01,
T1A_U13, InzA_U05 C2 Lab2-4 N2
PEK_U02 K1Atc_U22, T1A_U08, InzA_U01,
T1A_U13, InzA_U05 C2 Lab2-4 N2
PEK_U03 K1Atc_U22, T1A_U08, InzA_U01,
T1A_U13, InzA_U05 C2 Lab2-4 N2
PEK_U04 K1Atc_U22, T1A_U08, InzA_U01,
T1A_U13, InzA_U05 C5 Lab5-8 N3
PEK_U05 K1Atc_U22, T1A_U08, InzA_U01,
T1A_U13, InzA_U05 C5 Lab5-8 N3
PEK_U06 K1Atc_U23, T1A_U04, T1A_U05 C1, C3, C4 Sem1-8 N4
PEK_U07 K1Atc_U23, T1A_U04, T1A_U05 C1, C3, C4 Sem1-8 N4
** - enter symbols for main-field-of-study/specialization educational effects *** - from table above
Zał. nr 4 do ZW 64/2012
Wrocław University of Technology FACULTY OF CHEMISTRY
SUBJECT CARD
Name in Polish Ochrona przed korozją i elektrochemiczne procesy produkcyjne
Name in English