• @[email protected]
    link
    fedilink
    English
    21 month ago

    We also should consider HVDC lines. The longest one right now is in Brazil, and it’s 1300 miles long. With that kind of range, wind in Nebraska can power New York, solar in Arizona can power Chicago, and hydro all around the Mississippi river basin can store it all. We may have enough pumped hydro already that we might not even need batteries, provided we can hook it all up.

    • @[email protected]
      link
      fedilink
      English
      21 month ago

      HVDC is much more expensive than Hydrogen pipelines, which doubles as storage and transmission, and can provide continent wide resilience, even when local renewables provide much cheaper power when it is available than either long distance electric or H2 power.

      • @[email protected]
        link
        fedilink
        English
        1
        edit-2
        1 month ago

        The studies on hydrogen pipelines tend to assume there’s some existing reservoir of hydrogen. Making hydrogen in a green way is expensive, and that completely ruins its economic viability.

          • @[email protected]
            link
            fedilink
            English
            11 month ago

            Not at all. Hydrogen electrolysis efficiency is about 70-80%. When turning it back into electricity, fuel cells are 40-60% efficient. That means your electricity costs are about double for the complete round trip.

            Conversely, lithium batteries (and most other types) are over 90% efficient and directly give you electrons.

            • @[email protected]
              link
              fedilink
              English
              11 month ago

              The difference is that the electrolysis can be done at producer convenience. Sometimes wholesale electricity prices (midday due to high solar penetration) are negative or ultra cheap. Transporting H2, even by truck, can be cheaper than the US typical 8c/kwh electric transmission charge. For many areas, enough solar in winter has 3x more summer production and essentially unusable. A balance of solar and H2 produced in summer, can provide the cheapest necessary energy for winter. An alternative is summer exports with winter imports.

              Batteries alone are also subject to curtailment, or not enough charging in winter. H2 can be stored at $1/kwh, where a pipeline is free transmission of withdrawals different from deposit locations. The energy efficiency round trip is less important than the $ efficiency of energy delivery.