I was specifically referring to over computerized systems on
smaller boats, susceptible to humid, salty atmosphere. . If the
installation is kept more rudimentary and simpler, it can assumed
it probably would be less troublesome. Larger vessels that have
extensive electronics, have more climate control and hardened
electronics.
On 30/04/2021 7:16 p.m., Eric via
groups.io wrote:
toggle quoted message
Show quoted text
¡°Anyone considering
going all electric propulsion in the salty ocean environment is
being naive. The IC and computer components will corrode unless
sealed circuit board tech, like in military, automotive ECUs and
even in residential clothes dryers is used. That makes repair
maintenance difficult....unless spare sealed circuit boards can
be easily swapped? out.¡±
Interesting position, and not difficult to agree with the
reasoning. ?I¡¯m sorry to hear that your installation has led to
many component failures over time due to environmental factors.
But in practice, I have not found this to be a problem. ?I
converted my boat in 2009 to ABYC specs, and she has been in the
water every day since, excepting haul outs for bottom maintenance.
?Many of my components are EV (land based) spec¡¯ed items, like my
Elcon charger, and the only failure that I have had so far was a
main contactor that I mounted upside down, in the ¡°catch water¡±
position, because it made the wiring easier for me at the time.
?After the failure, I read the manufacturer¡¯s specs and they
clearly stated to not do what I did. ?The new contactor is
installed in the correct orientation. ?Funny thing is that the
water that did the damage was fresh water runoff from rain, salt
water was not a factor. ?Overall, there is minor surface rust on
some ferrous components, but nothing that has affected performance
or function. ?
Speaking of performance, I am running a pack of 16 LiFePO4
prismatic cells with no BMS other than autonomous ¡°mini-BMS¡±
modules on each cell that do minor top balancing, and have had no
noticeable cell drift in 12 years. ?I store the cells at 100%
state of charge for months at a time, and the pack still tests out
to more than the original 160ah cell spec, but capacity is down
about 5% from the initial installation testing.
Much of what I read here sounds like people are over-thinking
their designs and solving theoretical problems that may not be as
much of an issue as they sound like they could be.
Back to the original comment, after 12 years, the ocean
environment has had no significant affect on my electric drive
systems. ?I¡¯l let you know if any problems crop up in the next
decade or so...
Eric
1964 Cheoy Lee Bermuda 30, Serenity - 5.5kW drive, 8kWh LiFePO4
traction bank
Marina del Rey, CA
