I just watched the most recent video by Jason
of Engineering Explained about electric vehicles
and the future of transportation.
Now, I myself strongly believe that EVs are
the future of transportation, and Jason’s
video was great and very thorough.
But when discussing their use Jason made an
oversight that so many people make that I
feel we need to discuss it now.
In the video, Jason brought up that if you
live in an urban setting, with shorter travel
distances and where the charging infrastructure
is there, then an EV makes sense, but if you
live in a rural setting, where the travel
distances are longer and the infrastructure
isn’t necessarily there, then they don’t
make as much sense.
Now I take issue with the rural point because
my mom and dad, who live in a decidedly rural
setting are living happily with their Bolt
EV, but the more broad issue is one of infrastructure.
Saying that there’s more infrastructure
in the city than in rural areas is, while
technically true, kind of irrelevant.
Why?
Well, because most people with an EV build
their own charging infrastructure!
And they can do so because 99% of that infrastructure
is already in place.
The generation stations are electric vehicle
infrastructure.
These power lines are infrastructure.
This substation is infrastructure.
This transformer is infrastructure.
These meters are infrastructure.
This distribution panel is infrastructure.
All that’s missing to turn all of this into
an electric car charging station is an EVSE,
a new circuit breaker, and a run of wire to
wherever your car is.
I have seen time and time again from the people
who doubt the feasibility of electric vehicles
that the cost of creating charging infrastructure
for them will be enormous.
They see the thousands of fueling stations
for petroleum cars and imagine that an EV
will have to be refueled in a similar way.
In their head, they see a need to convert
all of these fueling stations into charging
stations, but that simply isn’t true.
An EV can charge overnight every day when
you have an EVSE installed where you live.
Every morning you wake up to a fully charged
vehicle, ready to take on your daily needs.
A charging station like this Clipper Creek
HCS-40 will add about 200 miles of range to
a typical EV with 8 hours of charging.
So even if you drive 200 miles every day,
which would be putting more than 70,000 miles
on your car annually, every morning your home
charging station will have topped off your car.
And if you have 200 amp service from your
utility, then the charging station is only
16% of your home’s electrical capacity.
Because you already have electrical service
from your utility, the cost of adding an EVSE
can be very low.
The chargers themselves are typically around
$400, and if your circuit breaker panel is
near your garage or parking location, you
may very well spend less than $500 having
an electrician install it for you.
So essentially, depending on your situation,
you can build a fueling station at home for
less than $1,000 all in.
And sometimes there are tax incentives for
this process.
Of course, there are caveats.
One of the most difficult things to figure
out is how to add charging stations to homes
such as apartment buildings, or urban areas
with on-street parking only.
But these are tiny investments compared to
building a fueling station.
I myself live in a multi-family home - a condo
building with more than 50 units.
I took the initiative to jump through the
hoops, and now there’s a charging station
in my spot.
I made a whole video on this experience if
you’re interested.
Thanks to this charging station and the station
where my parents live, their Bolt EV has travelled
nearly 10,000 miles now and has only ever
been charged with this EVSE, or that EVSE.
It has never visited a public charging station
because I have built my own infrastructure,
and so have my parents.
This may sound harsh, but what will likely
happen is that gas stations as we know them
today will largely disappear.
If level 2 charging equipment is available
where you live, you simply will never visit
a fueling station.
It’s just something you don’t have to
do anymore.
There is no need to replicate the fueling
experience of a gasoline or diesel powered
car for electric vehicles.
This is very hard to contextualize, and I
don’t blame anyone who can’t right now,
but with an EV you simply plug it in and walk
away.
It never goes to a gas station because you
have your own gas station in your parking spot.
I fear that as DC fast charging become feasible,
people might imagine these charging stations
as a fueling station replacement.
While this might be a workable solution to
the barriers to a home charging station that
some people face, I think it makes far more
sense to eliminate those barriers than to
rely on public fast charging.
If you only have on-street parking, then perhaps
the utility and local government should get
involved to help people like yourself install
an EVSE near the road.
For apartment buildings, management might
consider adding a bank of chargers and allow
access to them for a fee.
Or better yet, workplaces can start to install
level 2 chargers for their associates.
If charging is limited to those who cannot
charge at home, then their 8 hour day at work
would get them the same 200 miles that an
overnight charge can for everyone else.
Now I get it, these solutions require new
ways of thinking and adjustments to behavior.
If gas stations simply turn into banks of
DC fast charging stations, then no real change
in behavior is required.
Just visit the station when needed.
But it will take far less effort to simply
add basic level 2 charging stations at home
or at work.
It will cost a small fraction of installing
big honking 350 kW DC fast chargers everywhere--particularly
because these stations will almost certainly
require the utility to upgrade the service
wherever they’re installed.
Where DC fast chargers will be needed is along
interstate corridors to enable long distance travel.
That’s what Tesla Superchargers do, and
that’s what the Electrify America initiative
is going to do.
We do need fast charging infrastructure, but
it’s a fundamental mistake to think that
this infrastructure needs to replace the fueling
infrastructure we use day-to-day.
Home charging or work charging will be what
replaces your neighborhood gas station.
DC Fast Charging will replace the truck stops
along the highway.
And smart truck stop owners might consider
installing DC fast chargers, if their long
term future is in their sights.
To conclude, EV charging infrastructure should
not be thought about in the terms of the fueling
infrastructure we use today.
In fact, it cannot be thought in this way.
When you have an EVSE at home, longer range
cars like the Bolt EV or Teslas or any number
of future offerings won’t need to rely on
public charging at all.
That’s where the infrastructure challenge
really is--homeowners with garages face almost
no challenge to installing an EVSE.
But apartment dwellers, renters, and urban
homeowners with on-street parking do face
a barrier.
I think it’s a wiser investment to eliminate
their barriers and get them their own level
2 charging stations than to build up a DC
fast charging infrastructure for their daily needs.
Plus, it’s a lot more convenient to just
plug in at home and walk away than to wait
at the DC fast charger.
My fairy-tale solution to this problem is
for local utility companies to form their
own EV charging operations.
There might be regulations preventing this,
but what I see as a great solution is a system
where the utility can add the electric consumption
from any charger to an individual’s electric bill.
Possibly through an RFID tag on the car and
a reader on the charge cord, the charger will
know what car it’s plugged into, and can
directly bill the owner for their electricity
use, regardless of where they plugged in.
I think this would be a great solution for
multi-residential buildings with unassigned
parking, or public on-street charging.
To finance the cost of the installation, the
utility could perhaps charge $5 per connection
until the unit’s upfront cost has been recouped,
after which point the energy is sold at standard rates.
In any case, what needs to be understood is
that an EV is charged opportunistically, pretty
much whenever it’s parked.
Going to a place to refuel is just not how
they work.
Though it can be hard to keep this in mind,
it’s absolutely essential to understand
the type of infrastructure we need.
When you understand that, you’ll start to
get the sense that this isn’t as hard as it seems.
Thanks for watching.
