. "Environmental Engineering And Sustainability"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "Pollution control technology (pollution control technology for stationary sources)"@en . . "5.00" . "Learning Outcomes\nAfter succesfully completing this course, he students will be able to:\n- Recognise the main pollutants and their characteristics\n- Understand pollution control technologies for a given industrial installations\n- Sselect appropriate pollution control device\n- Calculate sizes of pollution control devices\n- Estomate the cost of each pollution control solution\nGeneral Competences\nRetrieve, analyse and synthesise data and information, with the use of necessary technologies\nMake decisions\nWork autonomously\nWork in teams\nDesign and manage projects\nRespect natural environment\nCourse Content (Syllabus)\nIIntroduction\nIntroduction, main pollutant categories, sources, impacts, formation of primary and secondary particles, pollution control and techniques.\n\nParticle dynamics\nParticle dynamics, sizes, equivalent diameter stokes, aerodynamic, mobility. Motion in a fluid under different Kn numbers, particle drag, Cunningham correction, motion under a force field (gravitational, electrostatic), terminal velocity.\nStatistical size distributions, normal, log-normal, bimodal, mean value, median value, standard deviation, variation, calculations with field data. First semester project.\n\nParticle emission control\nEmission control technologies: inertial collectors, centrifugal separators, electrostatic precipitators, filters, water scrubbers. Operation principles, types, industrial applications, sizes. Efficiency calculations, size and pressured drop of cyclones, bag filters and electrostatic precipitators. Calculating size and pressure drop of cyclones, bag filters, electrostatic precipitators. Impact of particle chemistry on efficiency. Second semester project.\n\nGaseous pollutants emission control\nAbsorption: Thermodynamics, Henry’s law, Raoult’s law, mass transfer rate. Absorption columns, types, technologies, characteristics, bed materials, absorbents and absorbates. Calculation of column height based on number of transfer units, minimum diameter for flooding, pressure drop.\nAdsorption: Thermodynamics, Langmuire isotherms, rate of adsorption/desorption. Adsorbers, fixed bed, fluidized bed systems, adsorbent and adsorbates, adsorbing zones, calculation of size and pressure drop.\nNOX emission control: combustion control, exhaust gas recirculation, catalytic converters, light-off temperature, SCR technology.\nThird semester project." . . "Presential"@en . "TRUE" . . "Integrated Master in Mechanical Engineering"@en . . "https://www.meng.auth.gr/wp-content/uploads/sites/97/2019/01/%CE%9F%CE%B4%CE%B7%CE%B3%CF%8C%CF%82-%CE%A3%CF%80%CE%BF%CF%85%CE%B4%CF%8E%CE%BD-2022-2023_V3.pdf" . "60"^^ . "Presential"@en . "Plz note that only the fifth year ( 9th and 10 Semester ) is documented.The studies of Mechanical Engineering at Aristotle University of Thessaloniki are structured as follows:\n\n1. Core Courses – Study Track Courses – Specialization Courses\n\n1.1. The 1st to the 6th semester of study (first 3 years) include exclusively Core Courses. All Core Courses are compulsory and they sum up to a total of 180 ECTS units. The Core Courses provide basic knowledge of the Mechanical Engineering studies, necessary for every student. The courses are taught through lectures and laboratory exercises.\n\n1.2. The 7th and 8th semesters of study (4th year) include Study Track Courses, which are Compulsory (Y) and Elective (E) and the total number of ECTS units, which must be obtained by each student, is 60. The students, based on the interests, are obliged to choose one of the following Tracks of Study:\n\na) Design and Structures\n\nb) Energy\n\nc) Industrial Management\n\nThe Track Courses provide advanced knowledge in special fields of the science of Mechanical Engineering.\n\n.\n\n1.3. The 9th and 10th semesters of study (5th year) include Compulsory (Y) and Elective (E) Courses. They also include the elaboration of a thesis. The total ECTS units that each student must obtain from the Courses are 30. The Specialization Courses provide further deepening of the students’ knowledge in specialized scientific areas of Mechanical Engineering with parallel development of additional abilities.\n\n1.3.1. The student chooses one of the Specializations with a corresponding statement, depending on the Track of Studies that he/she has chosen in the 4th year of studies. All the courses taken by each student must belong to the Specialization, which he /she has chosen.\n\n1.3.2. The student attends a total of 6 Courses of the Specialization he has chosen. Up to 4 of these courses may be compulsory (Y), while the rest are electives (E).\nGraduates of the Department, depending on the courses, thesis and internship they have chosen, acquire a variety of skills. In particular,\n\na) solving technological problems\nb) shaping, studying and evaluating energy systems,\nc) development of new materials, products, production and machining processes,\nd) development of industrial production organization techniques,\ne) design and analysis in environmental engineering applications,\nf) conducting experimental measurements and evaluating them in mechanical, electrical, environmental and production applications, \ng) conducting research in the science of mechanical engineering, \nh) providing advice in the wider field of mechanical engineering and applications her."@en . . . "1"@en . "FALSE" . . . "Master"@en . "Thesis" . "Not informative" . "no data"@en . "Not informative" . "Recommended" . "NA"@en . "3"^^ . "TRUE" . "Upstream"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .