Funny... never heard that little fact mentioned in all the breathless reporting when they flew it.
It's been "fixed" and flyable since July, then down for 7 weeks for a 2 week avionics upgrade. Still saving up for new landing gear that insurance wouldn't cover, and need to get my rigging redone during annual this Feb.
What problems are those with the Li-S battery?
Doesn't the power industry make money when people plug into the grid to charge their batteries?
I think they meant before the end of 2202.
Most methods of generating electricity are rather difficult to throttle quickly. Nuclear and fossil-fuel plants welcome the opportunity to even-out load by charging stuff at night.
No, I'm not being obtuse. As we did have a discussion about this two years ago, I was wondering what new difficulties came about.
Beavers don't die. They get rebuilt to live again.
Like a diesel locomotive?
I would love to come to the defense of my home state but unfortunately you were right.. I stay for the weather and geographic topography
Yes! and they're idiots. Tesla also has made it seem like this tech is here.. what people don't realize it's just how heavy those batteries are, for a fairly limited output. A car spends the vast majority of its life below 30% power and makes use of regenerative braking
Yes! It's awful
..they make money even if you have solar and are operating in a net surplus. SDGE still charged a host of fees just to be plugged into the network even if you were consistently selling power back into the grid.. which, is sold back at a fraction, I don't believe as an option anymore, and there's a limit to how how many panels you can put on your house based on the prior year of electrical usage. The utility companies do everything they can to keep a captive audience and the law makers capitulate
These designs are a bit of an enigma to me.. if you can put a propeller directly onto an engine then why is it advantageous to instead plug that engine into a generator, have that generator feed batteries, have those batteries feed a motor, and put the propeller on that motor. Lots of added weight and opportunities for energy loss thanks to entropy, efficiency, etc. In cars it makes sense since people spend a ton of time idling and not moving and slowing down, but in an aircraft where you generally need at least 65 to 75% of your available power I just don't see where the saving lies.. it's not like you are going to charge those batteries up on descent and then use them for takeoff
Generally speaking, every time you convert energy from one form to another, loss occurs. The rule of thumb for motors / generators is 75% comes out for 100% in. Locomotives apparently can accept the losses in order to get an infinitely variable transmission. An airplane probably could accept those losses as well, but I’m not sure what the design advantage would be. Performance and/or payload would be compromised, at best.
Steam power rules....
Of course in that application, the added weight is a feature, not a bug.
Not in my experience. PG&E now pays me retail for any excess energy I produce. Also, if I install batteries I can get a failover switch that keeps my house powered and disconnects me from the grid. That’s to keep the line workers safe. I would have to double my solar production to make having a battery make sense and we rarely have outages so it’s not worth the time and expense.
Lately we have had a rash of power outages. I would bet we have had over a dozen in the last few weeks. They are normally a few hours long
It was just a proof of concept — showing that, in theory, even a 70-year-old floatplane design that originally had a 450 hp radial engine can be adopted to run on electrical power — not a production-stream development.
