{"id":1474,"date":"2023-05-16T13:40:40","date_gmt":"2023-05-16T10:40:40","guid":{"rendered":"https:\/\/www.civil.ihu.gr\/?post_type=course&p=1474"},"modified":"2023-11-14T16:56:59","modified_gmt":"2023-11-14T14:56:59","slug":"%cf%85%ce%b4%cf%81001","status":"publish","type":"course","link":"https:\/\/www.civil.ihu.gr\/en\/courses\/%cf%85%ce%b4%cf%81001\/","title":{"rendered":"Environmental Engineering"},"author":6,"template":"","meta":{"_acf_changed":false},"semester":[15],"course_type":[13],"class_list":["post-1474","course","type-course","status-publish","hentry","semester-15","course_type-special_background"],"acf":{"code":"\u03a5\u0394\u03a1001","semester":15,"level":"1","teaching_activities":{"activity_1":{"description":"Lectures","weekly_hrs":4,"ects":3},"activity_2":{"description":"","weekly_hrs":"","ects":""},"activity_3":{"description":"","weekly_hrs":"","ects":""},"activity_4":{"description":"","weekly_hrs":"","ects":""},"activity_5":{"description":"","weekly_hrs":"","ects":""}},"type":13,"language":"\u0395\u03bb\u03bb\u03b7\u03bd\u03b9\u03ba\u03ac","erasmus":"\u039d\u03b1\u03b9","url":"","prerequisites":"","instructors":"","coordinator":"","content":"\u2022 Principles of aerosol cleaning. Emission sources of pollutants in the atmosphere. Removal of\r\ngaseous pollutants. Particulate removal from static source emissions. Technologies for destroying\r\npollutants emitted by mobile sources\r\n\u2022 Principles - methods of water treatment. Quality of potable water\r\n\u2022 Solid waste management and processing. Management of urban waste\r\n\u2022 Climate change, ozone hole, acid rain\r\n\u2022 Toxic substances, asbestos, lead, dioxins\r\n\u2022 Principles of biological wastewater and sludge treatment. Environmental biochemistrybiotechnology elements: Microorganisms, biochemical reaction kinetics. Wastewater treatment\r\ntechnology: Qualitative and quantitative characteristics of wastewater. Sewage treatment.\r\nSeparation grids. Sand collectors. Physico-chemical treatment. Sedimentation tanks. Biological\r\nprocesses of suspended and attached biomass. Natural wastewater treatment systems. Disinfection.\r\nSludge treatment technology: Qualitative and quantitative characteristics of sludge. Sludge\r\nthickening. Sludge immobilization\/digestion. Dewatering, drying, and burning of sludge. Final disposal\r\nand\/or reuse of treated wastewater and sludge.","goals":"Upon successful completion of the course, the student will be able to:\r\n\u2022 know the concepts of climate change, the ozone hole, acid rain\r\n\u2022 understand the conditions of air pollution and water pollution\r\n\u2022 know the processes of wastewater treatment\r\n\u2022 design a sewage treatment plant\r\n\u2022 dimension the sewage treatment tanks\r\n\u2022 be aware of the limitations and peculiarities in the construction of such projects\r\n\u2022 know the limits of pollutants that can be discharged from a Wastewater Treatment Plant","skills":"\u2022 Decision making\r\n\u2022 Respect for the natural environment\r\n\u2022 Autonomous work\r\n\u2022 Adaptation to new situations","teaching_methods":"Face to face.","ict_usage":"Powerpoint presentations, E-learning platform for\r\neducational material.","teaching_organization":{"activity_1":{"description":"Lectures","workload":52},"activity_2":{"description":"Individual study","workload":26},"activity_3":{"description":"TOTAL","workload":78},"activity_4":{"description":"","workload":""},"activity_5":{"description":"","workload":""},"activity_6":{"description":"","workload":""}},"students_evaluation":"1. Assignment of tasks aimed at exploring understanding of\r\nconcepts taught.\r\n2. Final written exam at the end of the semester (in Greek).","bib_textbooks":"