Hydrogen scenario preparation

Data for hydrogen storage

Implement an electrolyzer and a gas turbine in each of the three northern nodes as invest unit with infinite investment potential and no integer investment (investMIP = 0). The discount rate is 7%, you find all other necessary data in the table below. For connecting the units to grids, refer to the sketch you prepared about the batteries in DE0 3. If you cannot recall how to implement new investment units, refer to the tutorials.

Hint: As you may have noted, there is only one efficiency (eff00) in p_unit and no minimum operation point. This is due to the simplified representation of powerplants in this bigger model to save computational time (remember the different cases from exercise 1). You can just add the one efficiency given as eff00 and not provide a minimum operation point.

Second Hint: You do not have to fill the column "UpperLimitCapacityRatio". For further information, read the comment in the excel file.

 

Invest costs (€/MW)

FOM costs (€/MWa)

VOM costs (€/MWh)

Lifetime (years)

Efficiency (%)

Unit size (MW)

electrolyzer[1]

2.7 * 105

 9.4 * 103

1.2

30

78

1

Gas Turbine[2]

8.5 * 105

 2.1 * 104

2

30

62

1

[1] Child, Michael; Kemfert, Claudia; Bogdanov, Dmitrii; Breyer, Christian (2019): Flexible electricity generation, grid exchange and storage for the transition to a 100% renewable energy system in Europe. In Renewable Energy 139, pp. 80–101. DOI: 10.1016/j.renene.2019.02.077, Gorre, Jachin; Ortloff, Felix; van Leeuwen, Charlotte (2019): Production costs for synthetic methane in 2030 and 2050 of an optimized Power-to-Gas plant with intermediate hydrogen storage. In Applied Energy 253, p. 113594. DOI: 10.1016/j.apenergy.2019.11359

[2] Moles, C.; Sigfusson, B.; Spisto, A.; Vallei, M.; Weidner, E.; Giuntoli, Jacopo et al. (2014): Energy Technology Reference Indicator (ETRI) projections for 2010-2050. Luxembourg: Publications Office (EUR, Scientific and technical research series, 26950)