Merge branch 'master' of gitlab.uliege.be:smart_grids/public/gboml

examples/towards_co2_valorization/README.md

 # Towards CO2 Valorization in a multi remote renewable energy hub framework
 
-Repository for our scientific paper results: https://arxiv.org/abs/2303.09454 .
+A newer version of this paper and software is available here: 
+https://github.com/VicD1999/towards_co2 .
+
+Repository for our scientific paper results: https://arxiv.org/abs/2303.09454 or https://orbi.uliege.be/handle/2268/301033 .
 
 
 # Installation
@@ -27,15 +30,31 @@ There are 5 scenarios from 1 to 5.
 Therefore, ```$num_scenario \in {1, 2, 3, 4, 5}```
 
 # Cite
-Please, if you use this code in your work consider citing https://arxiv.org/abs/2303.09454 : 
-
-@misc{dachet2023co2,
-      title={Towards CO2 valorization in a multi remote renewable energy hub framework}, 
-      author={Victor Dachet and Amina Benzerga and Raphaël Fonteneau and Damien Ernst},
-      year={2023},
-      eprint={2303.09454},
-      archivePrefix={arXiv},
-      primaryClass={math.OC}
+Please, if you use this code in your work consider citing https://arxiv.org/abs/2303.09454 or https://orbi.uliege.be/handle/2268/301033 : 
+
+@inproceedings{ORBi-f72d55b3-ab04-47a6-b325-b26f59e8335a,
+	AUTHOR = {Dachet, Victor and Benzerga, Amina and Fonteneau, Raphaël and Ernst, Damien},
+	TITLE = {Towards CO2 valorization in a multi remote renewable energy hub  framework},
+	LANGUAGE = {English},
+	YEAR = {17 March 2023},
+	DOI = {10.52202/069564-0172},
+	LOCATION = {Las Palmas, Spain},
+	ABSTRACT = {In this paper, we propose a multi-RREH (Remote Renewable Energy Hub) based
+		optimization framework. This framework allows a valorization of CO2 using
+		carbon capture technologies. This valorization is grounded on the idea that CO2
+		gathered from the atmosphere or post combustion can be combined with hydrogen
+		to produce synthetic methane. The hydrogen is obtained from water electrolysis
+		using renewable energy (RE). Such renewable energy is generated in RREHs, which
+		are locations where RE is cheap and abundant (e.g., solar PV in the Sahara
+		Desert, or wind in Greenland). We instantiate our framework on a case study
+		focusing on Belgium and 2 RREHs, and we conduct a techno-economic analysis.
+		This analysis highlights the key role played by the cost of the two main carbon
+		capture technologies: Post Combustion Carbon Capture (PCCC) and Direct Air
+		Capture (DAC). In addition, we use our framework to derive a carbon price
+		threshold above which carbon capture technologies may start playing a pivotal
+		role in the decarbonation process of our industries. For example, this price
+		threshold may give relevant information for calibrating the EU Emission Trading
+		System so as to trigger the emergence of the multi-RREH.}
 }