Artesis Plantijn Hogeschool Antwerpen
Industrie en Omgeving
Labportfolio semester 429579/3096/2324/1/07
Study guide

Labportfolio semester 4

29579/3096/2324/1/07
Academic year 2023-24
Is found in:
  • Bachelor in Chemistry, programme stage 2
This is a single course unit.
Study load: 9 credits
It is not possible to enrol in this course unit under
  • exam contract (to obtain a credit).
  • exam contract (to obtain a degree).
Teaching staff: Gutschoven Inge, Hendrickx Kevin, Heykers Annick, Meyers Caroline, Opsteyn Ine, Peeters Benny, Pittois Karen, Soetaert Anneleen, Spanoghe Mark, Voortmans Martine
Teaching staff are not (all) known yet.
Languages: Dutch
Scheduled for: Semester 2
This course unit is marked out of 20 (rounded to an integer).
Possible deadlines for learning account: 15.03.2024 ()
Re-sit exam: not possible.
Possibility of deliberation/tolerance: This course unit is eligible for deliberation/tolerance according to the criteria as determined by the degree programme you are enrolled in.
Total study time: 234,00 hours

Prerequisites

(to be taken together with Industrial Microbiology OR having passed, or having a deliberated/tolerated mark for Industrial Microbiology) AND (to be taken together with Instrumental analysis 2 OR having passed, or having a deliberated/tolerated mark for Instrumental analysis 2) AND (to be taken together with Fysicochemistry OR having passed, or having a deliberated/tolerated mark for Fysicochemistry) AND (to be taken together with Aromatics and Polymer Chemistry OR having passed, or having a deliberated/tolerated mark for Aromatics and Polymer Chemistry) AND (to be taken together with Biomolecules 2 and Enzyme Kinetics OR having passed, or having a deliberated/tolerated mark for Biomolecules 2 and Enzyme Kinetics).

Learning outcomes (list)

Biochemical researcher - B1_Biochemical technology
Describes principles, procedures and interpretations of microbial lab experiments
Chemical researcher - A4_Report
communicates respectfully while performing microbiological tests related to identification, food, antibiotics and bacterial genetics.
Chemical researcher - C2_Chemical analysis
calculates the requested information about the original sample on the basis of the measured values
interpersonal - communication
formulates one scientific decision on all executed experiments
Interprets data and / or measurement results correctly
efficiently plans so that different analyzes can be carried out simultaneously
reports in written correctly on the results of its work in Standard Dutch
Writes a scientific report based on the lab notebook
writes a practical journal in accordance with regulations
writing a coherent scientific report on the executed experiments
writes a scientific report on the executed experiments in a logical and trackable order
processes the results in a scientific and linguistically correct report as required
interpersonal - working together
calculates the requested information about the original sample on the basis of the measured values
communicates respectful, assertive and constructive
interpersonal - care for the environment
executes enzyme experiments according to the safety regulations of a biochemical lab
intrapersonal - (self)contemplation
integrates optimized use of Exel in the elementary processing of measurement results and to draw up charts
introduces a phase diagram in the assessment of a separation technique which is based on a phase equilibrium
intrapersonal - methodology
Prepares meticulously for a lab assignment
calculates the requested information about the original sample on the basis of the measured values
Describes mechanisms and techniques to synthesize and purift an organic molecule (including polymers)
Describes mechanisms and techniques to synthesize and purify an organic molecule (including polymers)
Interprets enzyme activity as a function of the predicted variable
Makes use of the various techniques (distillation, recrystallization, boiling temperature, melting temperature, FT-IR, gas chromatography, thin layer chromatography, refractive index, GC-MS, DSC) which are used as the identification and analysis method.
processes analysis results
Processes spectrophotometric measurements to enzyme activity
executes analytical analyses procedures by avoiding possible error sources
Follows the procedure to purify an organic molecule correctly
executes a correct sampling and sample preparation
Executes a polymer synthesis in a correct manner
Executes an organic synthesis of aromatics in a technical-scientific manner.
executes in a technical-scientific way independently chromatographic analysis
executes in a technical-scientific manner independently spectrometric analysis
works according to the safety and environmental regulations
calculates pipeline resistances
keeps working under time pressure
intrapersonal - problem analysis
assesses the elementary mass and energy balance of a separation technique
assesses the validity of theoretical models about phase- and thermodynamics based on experimental results
generates experiments which seek to clarify realistic questions regarding physicochemical
sets pump and pipeline caracteristics, based on experimental data
Evaluates information out of a problem in a structured, clear manner
Labtechnician - A1_Task analysis and Planning
Prepares meticulously for a lab assignment
Describes mechanisms and techniques to synthesize and purift an organic molecule (including polymers)
Describes mechanisms and techniques to synthesize and purify an organic molecule (including polymers)
efficiently plans so that different analyzes can be carried out simultaneously
writes a practical journal in accordance with regulations
Labtechnician - A2_Execution of Laboratory activities
Prepares meticulously for a lab assignment
executes analytical analyses procedures by avoiding possible error sources
Follows the procedure to purify an organic molecule correctly
executes a correct sampling and sample preparation
Executes an organic synthesis of aromatics in a technical-scientific manner.
executes in a technical-scientific way independently chromatographic analysis
executes in a technical-scientific manner independently spectrometric analysis
Conducts microbiological tests correctly related to identification, foods, antibiotics and bacterial genetics.
takes initiative and asks questions while performing microbiological tests related to identification, foods, antibiotics and bacterial genetics.
Labtechnician - A3_Processing and interpretation of results
calculates the requested information about the original sample on the basis of the measured values
integrates optimized use of Exel in the elementary processing of measurement results and to draw up charts
Interprets data and / or measurement results correctly
Interprets enzyme activity as a function of the predicted variable
processes analysis results
Processes spectrophotometric measurements to enzyme activity
Writes a conclusion based on the microbiological tests related to identification, foods, antibiotics and bacterial genetics.
Labtechnician - A4_Report
communicates respectful, assertive and constructive
formulates one scientific decision on all executed experiments
reports in written correctly on the results of its work in Standard Dutch
Writes a scientific report based on the lab notebook
writing a coherent scientific report on the executed experiments
writes a scientific report on the executed experiments in a logical and trackable order
processes the results in a scientific and linguistically correct report as required
Processes results in a scientific report
Labtechnician - A5_Environment and safety
executes enzyme experiments according to the safety regulations of a biochemical lab
works according to the safety and environmental regulations
Labtechnician - C1_Organic synthesis and polymer chemistry
Makes use of the various techniques (distillation, recrystallization, boiling temperature, melting temperature, FT-IR, gas chromatography, thin layer chromatography, refractive index, GC-MS, DSC) which are used as the identification and analysis method.
Executes a polymer synthesis in a correct manner
Process engineer - A1_Task analysis and Planning
Creates a labpreparation of the microbial lab experiments
Evaluates information out of a problem in a structured, clear manner
Process engineer - P1_Proces technology
assesses the elementary mass and energy balance of a separation technique
assesses the validity of theoretical models about phase- and thermodynamics based on experimental results
generates experiments which seek to clarify realistic questions regarding physicochemical
introduces a phase diagram in the assessment of a separation technique which is based on a phase equilibrium
sets pump and pipeline caracteristics, based on experimental data
calculates pipeline resistances
Process engineer - P2_Proces-oriented adjustments
keeps working under time pressure

Educational organisation (list)

Learning Activities
Practicum88,00 hours
Work time outside of contact hours146,00 hours

Evaluation (list)

Evaluation(s) for first exam chance
MomentForm%Remark
1st examination periodSkills assessment permanently during class weeks (Permanent evaluation)100,00er is geen 2de zit mogelijk voor het opleidingsonderdeel