Added new electrolysis data souces

inst/extdata/database/fields/Tech/Long-Distance Maritime Transport.yml

@@ -0,0 +1,20 @@
+engine_type:
+  name: Engine type
+  description: Type of engine used on the vessel
+  type: case
+  coded: True
+  codes:
+    Two-stroke: ICE, for bulk carrier/ container ships
+    Four-stroke: ICE for general cargo ships (higher power density than two-stroke)
+    PEMFC: LT/HT proton exchange membrane fuel cell
+    SOFC: Solid oxide fuel cell
+fuel:
+  name: Fuel
+  description: Fuel used with the engine
+  type: case
+  coded: False
+component:
+  name: Component
+  description: Component
+  type: component
+  coded: False

inst/extdata/database/flow_types.csv

@@ -354,6 +354,8 @@ Ethylene,density_std,1.2611 kg/m³,Lemmon2023,
 Ethylene,c_ratio,85.60%,Wang2023,
 Ethylene,h_ratio,14.40%,,
 Ethylene,o_ratio,0.00%,,
+Propulsion,name,Propulsion,,
+Propulsion,default_unit,MWh,,
 Propylene,name,Propylene,,
 Propylene,default_unit,t,,
 Propylene,energycontent_LHV,43400 Btu/kg,Wang2023,

inst/extdata/database/sources.bib

@@ -1109,4 +1109,69 @@ @article{Stolz22
 	year = {2022},
 	keywords = {Environmental impact, Energy modelling, Energy, Hydrogen fuel, Mechanical engineering},
 	pages = {203--212},
-}
+}
+
+@article{Brynolf18,
+	title = {Electrofuels for the transport sector: {A} review of production costs},
+	volume = {81},
+	issn = {1364-0321},
+	shorttitle = {Electrofuels for the transport sector},
+	url = {https://www.sciencedirect.com/science/article/pii/S1364032117309358},
+	doi = {10.1016/j.rser.2017.05.288},
+	journal = {Renewable and Sustainable Energy Reviews},
+	author = {Brynolf, Selma and Taljegard, Maria and Grahn, Maria and Hansson, Julia},
+	month = jan,
+	year = {2018},
+	pages = {1887--1905},
+	}
+
+@techreport{Indwede18,
+	address = {Berlin},
+	title = {{IndWEDe}: {Industrialisierung} der {Wasserelektrolyse} in {Deutschland}: {Chancen} und {Herausforderungen} für nachhaltigen {Wasserstoff} für {Verkehr}, {Strom} und {Wärme}},
+	url = {https://www.now-gmbh.de/wp-content/uploads/2020/09/indwede-studie_v04.1.pdf},
+	language = {de},
+	institution = {NOW GmbH},
+	author = {Smolinka, Tom and Wiebe, Nikolai and Sterchele, Philip and Palzer, Andreas},
+	year = {2018},
+}
+
+@techreport{FCH17,
+	address = {Brussels},
+	title = {{EARLY} {BUSINESS} {CASES} {FOR} {H2} {IN} {ENERGY} {STORAGE} {AND} {MORE} {BROADLY} {POWER} {TO} {H2} {APPLICATIONS}},
+	url = {https://hsweb.hs.uni-hamburg.de/projects/star-formation/hydrogen/P2H_Full_Study_FCHJU.pdf},
+	language = {en},
+	institution = {FCH},
+	author = {Chardonnet, C and de Vos, L and Genoese, F and Roig, G and Bart, F and De Lacroix, T and Ha, T and Van Genabet, B},
+	year = {2017},
+}
+
+@techreport{DOE24,
+	title = {Clean {Hydrogen} {Production} {Cost} {Scenarios} with {PEM} {Electrolyzer} {Technology}},
+	url = {https://www.hydrogen.energy.gov/docs/hydrogenprogramlibraries/pdfs/24005-clean-hydrogen-production-cost-pem-electrolyzer.pdf?sfvrsn=8cb10889_1},
+	institution = {DOE},
+	author = {Hubert, McKenzie and Peterson, David and Miller, Eric and Vickers, James and Mow, Rachel and Howe, Campbell},
+	year = {2024},
+}
+
+@article{Krishnan23,
+	title = {Present and future cost of alkaline and {PEM} electrolyser stacks},
+	volume = {48},
+	issn = {0360-3199},
+	url = {https://www.sciencedirect.com/science/article/pii/S0360319923022590},
+	doi = {10.1016/j.ijhydene.2023.05.031},
+	number = {83},
+	journal = {International Journal of Hydrogen Energy},
+	author = {Krishnan, Subramani and Koning, Vinzenz and Theodorus de Groot, Matheus and de Groot, Arend and Mendoza, Paola Granados and Junginger, Martin and Kramer, Gert Jan},
+	year = {2023},
+}
+
+@article{Nami22,
+	title = {Techno-economic analysis of current and emerging electrolysis technologies for green hydrogen production},
+	volume = {269},
+	issn = {0196-8904},
+	url = {https://www.sciencedirect.com/science/article/pii/S0196890422009438},
+	doi = {10.1016/j.enconman.2022.116162},
+	journal = {Energy Conversion and Management},
+	author = {Nami, Hossein and Rizvandi, Omid Babaie and Chatzichristodoulou, Christodoulos and Hendriksen, Peter Vang and Frandsen, Henrik Lund},
+	year = {2022},
+}

inst/extdata/database/tech_types.csv

@@ -12,6 +12,7 @@ Heatpump for DAC,Low-temperature industrial heat pump to be used for DAC,Industr
 Hydrogen Liquefaction,Hydrogen liquefaction,Liquefaction of hydrogen,conversion,energy,Liquid Hydrogen
 Hydrogen Storage,Hydrogen storage,Long-term storage of hydrogen,storage,energy,Hydrogen
 Iron Direct Reduction,Direct-reduction shaft for iron ore,A furnace/shaft to directly reduce iron ore into DRI/HBI.,conversion,steel,Directly Reduced Iron
+Long-Distance Maritime Transport, Long-distance maritime transportation,Long-distance maritime transportation of goods,transport,shipping,Propulsion
 Methanation,Methanation/Methane synthesis,Industrial plants combining H₂ and CO₂ to yield methane (aka Sabatier process).,conversion,energy,Methane
 Methane Reforming,Reforming of fossil gas to produce hydrogen,Reforming of natural gas via steam-methane reforming (SMR) or auto-thermal reforming (ATR) w/ or w/o carbon capture to produce purified hydrogen.,conversion,energy,Hydrogen
 Methanol Synthesis with Reforming,Methanol synthesis from reformed fossil gas,Integrated methane reforming of fossil gas and synthesis of methanol.,conversion,energy,Methanol