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Industry
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Duration :
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| Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry) : 15h Th, 10h Pr Part 2 : Rational use of energy in industry : 15h Th, 10h Pr |
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Number of credits :
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Lecturer :
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| Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry) : Sandra Belboom, Angélique Léonard
Part 2 : Rational use of energy in industry : Vincent Lemort |
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Coordinator :
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| Angélique Léonard | ||||||||
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Language(s) of instruction :
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| French language | ||||||||
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Organisation and examination :
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| Teaching in the second semester | ||||||||
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Units courses prerequisite and corequisite :
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| Prerequisite or corequisite units are presented within each program | ||||||||
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Learning unit contents :
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| See description of the two parts of the module. | ||||||||
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Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry)
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| This course aims at presenting several tools, methodologies allowing to design sustainable industrial processes or to improve existing processes.
The following topics will be addresses: - Life Cycle Assessment methodology (LCA) and ecodesign - Best available techniques - Green process engineering. It combines theoretical courses and industrial case studies. |
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Part 2 : Rational use of energy in industry
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| This lecture aims at presenting mechanisms to optimize the use of energy in industry. The following concepts will be covered:
- energy performance indicators - techniques for improving industrial processes - the valorization of renewable energy - the use of CHP - heat recovery (among others, ORCs and heat pumps) The lecture will be illustrated through different examples from food-processing industry, chemical industry, steel industry, cement industry and glass industry. |
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Learning outcomes of the learning unit :
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| See description of the two parts of the module. | ||||||||
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Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry)
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| At the end of the course, the student will be able to
- show his understanding and his knowledge of the LCA methodology and related standards; - to explain the advantages, potential applications, and limitations of the this methodology; - to explain the environmental communication concept; - to explain the ecodesign approach; - to explain the 'green process engineering' approach and to illustrate it |
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Part 2 : Rational use of energy in industry
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| The student will be aware of main concepts of energy performance. He will also gain a good knowledge of mechanisms to improve energy performance in industrial processes. | ||||||||
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Prerequisite knowledge and skills :
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Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry)
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| Bachelor level scientific background. | ||||||||
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Part 2 : Rational use of energy in industry
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| Basic thermodynamics knowledge. | ||||||||
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Planned learning activities and teaching methods :
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| See description of the two parts of the module. | ||||||||
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Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry)
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| The course is based on 'ex-cathedra' lectures, seminars given by industrials, and one personal work.
The individual work will be the object of a written report whose cotation will count for 50% of the final mark (remaining 50 % = part of V. Lemort). |
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Part 2 : Rational use of energy in industry
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| Oral sessions followed by exercises sessions on computers. | ||||||||
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Mode of delivery (face-to-face ; distance-learning) :
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| See description of the two parts of the module. | ||||||||
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Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry)
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| Face-to-face lectures. | ||||||||
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Part 2 : Rational use of energy in industry
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| face-to-face | ||||||||
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Recommended or required readings :
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Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry)
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| Slides used during the lectures may be downloaded from eCampus. | ||||||||
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Part 2 : Rational use of energy in industry
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| Slides will be sent to students. | ||||||||
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Assessment methods and criteria :
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| See description of the two parts of the module. | ||||||||
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Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry)
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| The written report will be considered as final exam. | ||||||||
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Part 2 : Rational use of energy in industry
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| The evaluation will be based on two homeworks achieved by the student. | ||||||||
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Work placement(s) :
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Organizational remarks :
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| To be defined. | ||||||||
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Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry)
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| Course given on Arlon campus or in Liège, following a timetable to be defined | ||||||||
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Part 2 : Rational use of energy in industry
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| no remarks | ||||||||
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Contacts :
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| Prof. Angélique LEONARD Dpt of Chemical Engineering PEPs - Products, Environment, Processes Quartier Agora Institut de Physique, B5a, Bureau 1/51 Tél. 04/366.44.36 A.Leonard@ulg.ac.be | ||||||||
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Part 1 : Tools for a more sustainable industry (product life cycle analysis, best available technologies, sustainable chemistry)
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| Prof. Angélique LEONARD
Dpt of Chemical Engineering
PEPs - Products, Environment, Processese
Quartier Agora Institut de Physique, B5a, Bureau 1/51 Tél. 04/366.44.36 A.Leonard@ulg.ac.be |
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Part 2 : Rational use of energy in industry
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| Vincent Lemort Thermodynamics Laboratory Energy systems research unit Tel: +32 4 36 6 48 01 vincent.lemort@ulg.ac.be | ||||||||