Conference proceedings

Displaying 1 - 3 of 3 in Environmental data analysis and modelling (remove filter), CEST2023 (remove filter), system (remove filter)

CEST Proceedings are published under the ISSN 2944-9820.

Fair and Efficient Allocation of EU Emission Allowances

(Corresponding) Dimos S., Fotakis D., Mathioudaki A., Papadopoulos K.
Topic: 
Environmental data analysis and modelling
Under the European Union Emission Trading System (EU ETS), the European Union issues and allocates emission allowances (EUA) to the member states to cap the total volume of Greenhouse Gas (GHG) emissions. Since the first years of operation, the EU ETS allocation procedure has undergone multiple...Read more
Keywords: 
EU ETS, Cap-and-Trade, Emission Trading System, Allowance Allocation, Individual Fairness
Paper ID: 
cest2023_00077

Rule-based Quantification and Mapping of Ecosystem Services Across Three Spatial Scales by Example of Germany

Schlutow A., (Corresponding) Schröder W., Nickel S., Jenssen M.
Topic: 
Environmental data analysis and modelling
The state of ecosystems influences their services for humans. Therefore, the European Union aims to assess and map ecosystem conditions and ecosystem services at the level of the Union and the Member States, in order to implement maintenance or protection measures, if necessary. This paper aims at...Read more
Keywords: 
Ecosystem condition; ecosystem integrity; EU Biodiversity Strategy; Geographic Information System.
Paper ID: 
cest2023_00130

Modelling metal and energy recovery from Acid Mine Drainage by means of Bioelectrochemical Technology

Delgado Y., Lopez E., Martin M., Llanos J., (Corresponding) Fernandez-Morales F.
Topic: 
Environmental data analysis and modelling
This work presents a Monod-based mathematical model able to predict the performance of a bioelectrochemical system (BES) treating Acid Mine Drainage (AMD). The BES was operated as a microbial fuel cell (MFC), in order to recover not only the metals but also all the chemical energy contained. The...Read more
Keywords: 
Acid mine drainage; bioelectrochemical system; mathematical modelling
Paper ID: 
cest2023_00462