Solar Hydrogen Fueling Station: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
|||
| (9 intermediate revisions by the same user not shown) | |||
| Line 1: | Line 1: | ||
*First one in the world - in Sweden? - [https://fuelcellsworks.com/news/the-worlds-first-solar-powered-hydrogen-refuelling-station-inaugurated-in-mariestad/] | *First one in the world - in Sweden? - [https://fuelcellsworks.com/news/the-worlds-first-solar-powered-hydrogen-refuelling-station-inaugurated-in-mariestad/] | ||
*Techno-economic analysis - [https://www.sciencedirect.com/science/article/abs/pii/S0360319919343101] | *Techno-economic analysis states that cost of production of solar hydrogen is $9/kg - [https://www.sciencedirect.com/science/article/abs/pii/S0360319919343101] | ||
=Calculations= | |||
*36 cent/kW panel costs at sunelec.com | |||
*Use bus wire, 4-0, at $1/ft - for a few hundred dollar distribution cost to homes, using local 480 DC to 120 AC/240 AC inverters | |||
*Keeps cost down to about $5k for 10kW, though real cost in Seed Eco-Home 1 was $1/W installed (much lower than $3 industry standard) | |||
*Cost of electricity - 20 years * 365 * 6 * 10kW = 438MW hrs for $5k is 1.1 cents/kWhr. And life will be about 2x this for PV panels. | |||
*Given 50 kWhr requirement for hydrogen generation, with 60% efficiency electrolyzer. See [[Hydrogen Production]] | |||
**We get '''55 cents per kg hydrogen!''' That assumes cost of electrolyzer is nil. | |||
*Missing link here is power electronics - so this is what needs to be done from an [[STTR]] grant. | |||
{{Hint|Highlight: '''Cost of electrolyzer is 50 cents per kg H2 [https://www.energy.gov/eere/fuelcells/doe-technical-targets-hydrogen-production-electrolysis]. If we believe this figure, then the distributed production route yields 1/3 the cost (55 cents vs $1.6), adding 17 cents to the 55 cent OSE electricity cost of hydrogen'''. The OSE cost of hydrogen production is thus 72 cents per kg, not counting compression/storage. With compression, it is 2/3 more - or a total of $1.2 per kg.}} | |||
=Filling Station Calculatons= | |||
*Take one acre. 720 kW of panels. 6 hours per day equal 4300 kW hrs. | |||
*This is 86 kg of hydrogen per day, or about 10 microcars per day. Fleet of 70 cars all together. Somewhat marginal. | |||
*But it's still $250/day - or $7500 per month, or $94k/yr. This is ok. Payback time of about 4 years for the PV panels, and overall 7 years. Wow. This would change history. | |||
=Links= | |||
*[[Solar Hydrogen Production]] | |||
Latest revision as of 04:54, 1 August 2021
- First one in the world - in Sweden? - [1]
- Techno-economic analysis states that cost of production of solar hydrogen is $9/kg - [2]
Calculations
- 36 cent/kW panel costs at sunelec.com
- Use bus wire, 4-0, at $1/ft - for a few hundred dollar distribution cost to homes, using local 480 DC to 120 AC/240 AC inverters
- Keeps cost down to about $5k for 10kW, though real cost in Seed Eco-Home 1 was $1/W installed (much lower than $3 industry standard)
- Cost of electricity - 20 years * 365 * 6 * 10kW = 438MW hrs for $5k is 1.1 cents/kWhr. And life will be about 2x this for PV panels.
- Given 50 kWhr requirement for hydrogen generation, with 60% efficiency electrolyzer. See Hydrogen Production
- We get 55 cents per kg hydrogen! That assumes cost of electrolyzer is nil.
- Missing link here is power electronics - so this is what needs to be done from an STTR grant.
Hint: Highlight: Cost of electrolyzer is 50 cents per kg H2 [3]. If we believe this figure, then the distributed production route yields 1/3 the cost (55 cents vs $1.6), adding 17 cents to the 55 cent OSE electricity cost of hydrogen. The OSE cost of hydrogen production is thus 72 cents per kg, not counting compression/storage. With compression, it is 2/3 more - or a total of $1.2 per kg.
Filling Station Calculatons
- Take one acre. 720 kW of panels. 6 hours per day equal 4300 kW hrs.
- This is 86 kg of hydrogen per day, or about 10 microcars per day. Fleet of 70 cars all together. Somewhat marginal.
- But it's still $250/day - or $7500 per month, or $94k/yr. This is ok. Payback time of about 4 years for the PV panels, and overall 7 years. Wow. This would change history.