[
Balibrea-Iniesta Jose, Carlos Rodríguez-Monroy, Yilsy María Núnez-Guerrero (2021). Economic analysis of the German regulation for electrical generation projects from biogas applying the theory of real options, Energy 23110.1016/j.energy.2021.120976
]Search in Google Scholar
[
Chiaramonti David, Theodor Goumas (2019). Impacts on industrial-scale market deployment of advanced biofuels and recycled carbon fuels from the EU Renewable Energy Directive II, Applied Energy 25110.1016/j.apenergy.2019.113351
]Search in Google Scholar
[
Energy Report - Biocombustibil (2021). https://www.energyreport.ro/index.php/2013-energieregenerabila/2013-stiri-energie-regenerabila/2013-biocombustibili/4699-statie-de-biogazdin-prahova-cumparata-de-baupartner (accesed 13 March)
]Search in Google Scholar
[
Grieshop, Andrew P., Julian D. Marschall and Milind Kandlikar (2011). “Health and climate benefits of cookstove replacement options”, Energy Policy, Vol. 39, No. 12, pp. 7530-4210.1016/j.enpol.2011.03.024
]Search in Google Scholar
[
IRENA, International Renewable Energy Agency (2017). Biogas for domestic cooking https://www.irena.org/publications/2017/Dec/Biogas-for-domestic-cooking-Technologybrief (accesed 11 March 2022)
]Search in Google Scholar
[
IRENA, International Renewable Energy Agency (2019). Advanced biofuels – What holds them back? https://www.irena.org/publications/2019/Nov/Advanced-biofuels-What-holdsthem-back (accesed 1 March 2022)
]Search in Google Scholar
[
IRENA, International Renewable Energy Agency (2021). Renewable Capacity Statistics 2021 https://www.irena.org/publications/2021/March/Renewable-Capacity-Statistics-2021 (accesed 13 March 2022)
]Search in Google Scholar
[
Kanda Wisdom, Hanna Zanatta, Thomas Magnusson, Olof Hjelm Madeleine Larsson (2022). Policy coherence in a fragmented context: the case of biogas systems in Brazil, Energy Research & Social Science 8710.1016/j.erss.2021.102454
]Search in Google Scholar
[
Monjas M, Balibrea J. (2014). A valuation of wind power projects in Germany usingreal regulatory options. Energy 2014
]Search in Google Scholar
[
Panoutsou Calliope, Sonja Germer, Paraskevi Karka, Stavros Papadokostantakis, Yuri Kroyan, Michal Wojcieszyk, Kyriakos Maniatis, Philippe Marchand, Ingvar Landalv (2021). Advanced biofuels to decarbonise European transport by 2030: Markets, challenges, and policies that impact their successful market uptake, Energy Strategy Reviews 3410.1016/j.esr.2021.100633
]Search in Google Scholar
[
Paris Bas, George Papadakis, Rainer Janssen, Dominik Rutz (2021). Economic analysis of advanced biofuels, renewable gases, electrofuels and recycled carbon fuels for the Greek transport sector until 2050, Renewable and Sustainable Energy Reviews 14410.1016/j.rser.2021.111038
]Search in Google Scholar
[
Skovsgaard Lies, Henrik Klinge Jacobsen (2017). Economies of scale in biogas production and the significance of flexible regulation, Energy Policy 77-8910.1016/j.enpol.2016.11.021
]Search in Google Scholar
[
WBA (World Bioenergy Association) (2013). “Biogas–an important renewable energy source”, www. worldbioenergy.org/sites/default/files/wfm/Factsheet_Biogas.pdf (accesed 13 March 2022)
]Search in Google Scholar
[
World Health Organization (2012). “Household air pollution burden of disease by WHO Regions, 2012”, http://apps.who.int/gho/data/node.main.139?lang=en (accesed 12 March 2022)
]Search in Google Scholar