Unterschiede

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--- en:lectures:start [2020/01/24 09:42] – [Master Environmental Engineering] ckuells
+++ en:lectures:start [2024/05/29 20:08] (aktuell) – ckuells
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 ----
-==== Master Environmental Engineering ====
+==== Bachelor Environmental Engineering ====
 <WRAP group>
 <WRAP half column>
-=== Hydrological Engineering ===
+=== Integrated Water Resources Management ===
-{{:en:lectures:armenien.jpg?100x100 |}} The course introduces principles and methods of sustainable water resources management for the Master Water Engineering. The course includes water resources assessment and the necessary hydrological background on processes and water balances, integrated water resources assessment, flood and drought risk assessment, management and mitigation and planning for environmental hydrology.
+{{:en:lectures:sea.png?100x100 |}} This lecture is given during the summer semester only for students of the course environmental engineering at the applied science department. The lecture introduces hydrology, urban water management, water treatment and open channel hydromechanics. It forms part of the English track for TH Lübeck and international students.
-[[en:lectures:swrm:start|Notes on Sustainable Water Management]]
+[[en:lectures:swrm:start|Notes on Integrated Water Resources Management]]
 </WRAP>
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 <WRAP half column>
-=== Hydrological Modeling ===
+=== Engineering Hydrology ===
-{{:en:lectures:well.jpg?100x100 |}} The master course includes modeling of water quality of rivers, transport modeling in rivers and lakes, water quality of lakes, groundwater quality, water, and solute movement in aquifers for the restoration of aquatic systems and water engineering with corresponding techniques artificial wetlands, reactive barriers. The course introduces the use of Python for hydrological modeling.
+{{:en:lectures:lake.png?100x100 |}} Engineering hydrology is an advanced lecture for civil engineers (bachelor) during the summer semester with a focus on hydrology, water, environment and geotechnics. This lecture introduces on hydrological modeling with statistical, conceptual and physical approaches. The lecture is given in English and forms part of the English track for environmental and civil engineers (bachelor). It also conveys the principles of reproducible research with R and markdown.
-[[en:lectures:ehydrology:start|Hydrological Modeling Notes]]
 </WRAP>
 </WRAP>
-==== Advanced Study Courses ====
+==== Water Engineering Master and MAEH ====
 <WRAP group>
 <WRAP half column>
-==== Tracer Hydrology ====
+=== Hydrological Engineering ===
-{{:en:lectures:trace.png?100x100 | Tracer}} The course on tracer hydrology introduces the principles of the use of tracers in hydrology. Environmental tracers and artificial tracers are presented, methods of applying them for hydrological studies, interpretation and modeling. The lecture is offered as a block course at TU Darmstadt. Lecture notes can be found [[de:lectures:tracer|here]].
+{{:en:lectures:armenien.jpg?100x100 |}} The course introduces principles and methods of sustainable water resources management for the Master Water Engineering. The course includes water resources assessment and the necessary hydrological background on processes and water balances, integrated water resources assessment, flood and drought risk assessment, management and mitigation and planning for environmental hydrology.
+[[en:lectures:swrm:start|Notes on Hydrological Engineering]]
-==== Project Water & Environmental Engineering ====
+</WRAP>
-  * [[https://www.researchgate.net/profile/Stefan_Haderlein/publication/8983072_Compound-Specific_Stable_Isotope_Analysis_of_Organic_Contaminants_in_Natural_Environments_A_Critical_Review_of_the_State_of_the_Art_Prospects_and_Future_Challenges/links/00b49517a3f917948c000000/Compound-Specific-Stable-Isotope-Analysis-of-Organic-Contaminants-in-Natural-Environments-A-Critical-Review-of-the-State-of-the-Art-Prospects-and-Future-Challenges.pdf|Review paper]]
+<WRAP half column>
+=== Simulation and Modeling (I - Groundwater) ===
+{{:en:lectures:well.jpg?100x100 |}} The master course includes modeling of water quality, transport modeling in rivers and lakes, groundwater flow and transport modeling, solute transport in aquifers for the restoration of aquatic systems and water engineering with corresponding techniques. The course introduces the use of Python for hydrological modeling.
+</WRAP>
 </WRAP>
+==== Advanced Study Courses ====
+<WRAP group>
 <WRAP half column>
-==== Environmental Tracer Techniques ====
+=== Tracer Hydrology ===
-{{:en:lectures:summer.png?100x100 | Summer School}} The course introduces and demonstrates environmental isotope field techniques with sampling, monitoring, analysis and interpretation. Analysis of recharge and solute transport are presented. Course announcements are given on [[http://www.uhydro.de/icer|our news page]]. Participants can access notes of the lecture, slides, links and videos [[en:lectures:envis|here]].
+{{:en:lectures:trace.png?100x100 | Tracer}} The course on tracer hydrology introduces the principles of the use of tracers in hydrology. Environmental tracers and artificial tracers are presented, methods of applying them for hydrological studies, interpretation and modeling. The lecture is offered as a block course at TU Darmstadt.
+</WRAP>
+<WRAP half column>
-==== Climate Change Adaptation - Engineering Approaches ====
+=== Environmental Tracers ===
-Material:
+{{:en:lectures:summer.png?100x100 | Summer School}} The course introduces and demonstrates environmental isotope field techniques with sampling, monitoring, analysis and interpretation. Analysis of recharge and solute transport are presented. Course announcements are given on [[http://www.uhydro.de/|our news page]]. Participants can access notes of the lecture, slides, links and videos [[en:lectures:envis|here]].
-  * {{:en:lectures:iahrwgcc-chincoldoct31-2015.pdf | Environmental Engineering for Climate Change Adaptation (IAHR)}}
-  * [[http://www.asce.org/climate-change/climate-change/|Climate Change Adaptation for Engineers - Guidelines (link)]]
-  * {{ :en:lectures:unbenannt.pdf | Integrate Climate Change Adaptation into Civil and Environmental Engineering}}
 </WRAP>