tesla

Tesla Model S vs. 3: First Impressions

Aunt Laurie and Uncle Clif reside in Portland. They're car peeps, specifically (emphatically) Tesla junkies. In 2013 they registered the first Tesla (a Model S) in Oregon. A few years later, they welcomed a Model X, and quickly jumped in line (and vaulted me to the front, riding shotgun courtesy of their second reservation) when Elon announced the Model 3. 

Laurie and Clif have drank the Tesla kool aide ... they are fanatics. To wit, here's a 48-hours-after-souped-up-Model-3-purchase recap from Aunt Lor:

Something felt odd to me about the 3 so I've had to give it some thought. l think I understand now ...

I got spoiled by the S.

3 not as fancy by far, but heck, it's at least $45k cheaper! (Even tho we bot the interior upgrade, fancier paint, rims, & long range 310 mi battery.)

Positives: It's more nimble, it's shorter by 11", so easier to maneuver round town. It does have more headroom as it is taller. It has spunk for sure, auto park & auto drive features. Simpler controls. Odd no driver dash gages, only an ipad like screen that is placed near center of dash? But now I get it. 

After 1 day I realize that simple design is clearly paving way for no driver & autonomous. Simple steering wheel "almost" feels superfluous in design. iPhone acts as one's fob, like calling Uber.

Clean lines w/smooth front. Elon no longer has to make cars look like other autos to be accepted; I predict more space age looks in near future.

So my conclusion:

The S is the brilliant stepping stone from normal luxury cars to electric luxury cars.

The 3 is stepping stone from human driver elec cars to elec autonomous vehicles. 

Just wait until 200,000 are on the road.

The future 

🤔

IMPORTANT to include enhanced autopilot hardware on your order. It incorporates the eight cameras & smart brains that enable lots of future software upgrades. 

W/o it the car won't be sought after on resale. 

The fully autonomous can be added later. 

Electric cars + solar panels: Does 1+1=3?

A quick note of thanks to The Enterprise for publishing the below article online today and in tomorrow's print edition. You can access the story here, and below is the prose.

A few times each week, we tender conversations with homeowners who own (or are considering purchasing) an electric vehicle and are thereby contemplating installing solar panels.

The psychology is similar: Electric cars (and solar) are good for the environment, and electric cars (and solar) are pragmatic/less expensive than the alternatives. Seems like a no-brainer – power your electric vehicle with cheap, clean energy generated by your solar panels.

But, is it?

Since 2010, nearly half of all plug-in electric vehicles sold in the United States are registered in California; the top-three models — Chevrolet’s Volt, Nissan’s Leaf and Tesla’s Model S — dominate the electric highway.

(And, many see the advent of Chevy’s all-electric Bolt in late 2016 and Tesla’s Model 3 — my deposit is in; please, Elon, late 2017? — as a tipping point for electric vehicles.)

Similarly, nearly half of all solar electric systems in the U.S. sit atop California households. (As we’ve shared, nearly one in four single-family residences in Davis now has a solar electric system, far out-pacing an estimated 5-percent penetration in PG&E territory.)

As transportation is increasingly electrified and energy generation is decentralized (from carbon-based, utility delivery to solar-generated, homeowner systems), does going solar to power your home and transport make sense? Let’s do the math.

Electricity costs
We have had the fortune of helping several hundred Yolo County homeowners evaluate solar. What we’ve learned: Their average cost of PG&E electricity is 25 cents per kWh, and their median monthly electricity bill is $185. Conversely, their cost to generate solar electricity averages 8 cents per kilowatt hour (kWh), amortized over the warrantied life of their solar panels. Solar saves money.

Transportation costs
For comparison, let’s assume an average car is driven 12,000 miles each year. If the car averages 25 miles per gallon, powered by petroleum, it will guzzle 480 gallons of gas annually. At $2.50 per gallon, annual fuel costs are $1,200, or 10 cents per mile.

Electric vehicles yield, on average, 4 miles of range per kWh. Hence, you will consume 3,000 kWh to drive 12,000 miles. If you are purchasing electricity from PG&E, your annual “fuel” cost is $750 (or, 6 cents per mile). If your electric car is powered by solar, your annual cost is $240 (2 cents per mile).

And, of course, if you charge at your workplace or one of a half-dozen free sites downtown, your cost is lower.

Environmental benefits
I can’t conceive an environmental virtue of driving a gas-powered car, though admittedly my family owns three (along with an all-electric vehicle). The environmental outcomes of electrifying your transportation with solar, though, are striking.

According to the EPA, over three years (36,000 miles) the greenhouse gas equivalents of clean transportation are:

* Retirement of 12.84 metric tons of carbon dioxide;
* Planting 320 tree seedlings, grown for 10 years; or,
* Averting 4.08 tons of waste sent to a landfill.

Many suns will set before electric vehicles become mainstream. Though cool and cheap and clean, their drawbacks are obvious: Range anxiety (Can I get from here to there?), charging anxiety (Do I need to charge it?), technology phobia (Is it too early/will it work?).

Danny Kennedy, managing director of California Clean Energy Fund, recently opined, “We’re now in a tech world, rather than a resource world. Resources are bound by scarcity — the more you use them, the more expensive they become. With tech, the more you use it, the cheaper it becomes.”

As the cost of solar and electric cars continue to descend, as the efficacy of both improve, and as PG&E rates further escalate, it will become increasingly difficult to dispute solar-fueled transportation.

The future is bright.

Solar Lease, R.I.P.

David Crane, former president & CEO of NRG Energy, is one of the solar industry's most prophetic and emphatic pundits. When he speaks, the industry (and analysts and investors) listen. Crane's latest opine in Tuesday's GreenBiz: TeslaCity: Will car company + solar company = shareholder happiness?

Worthy of a quick read, Crane lambasts national solar leasing companies (including SolarCity) for their fundamentally fragile business models, specifically their practice of "no money down solar leases." Quick anecdote:

But, most of all, SolarCity needed a quick phase-out of zero-money-down, long-term-lease financing, a funding arrangement which once was essential to the kickstarting of the entire industry, but has mutated into the crack cocaine of home solar companies that still depend upon it.

 

We receive calls -- probably two or three a day -- from either prospective solar homeowners who were propositioned a solar lease, or existing solar leaseholders (or their Realtors) who are trying to sell their home (with a leased solar system). Solar leases are sugary-sweet on the surface, but the hangover is brutal. 

I hope SolarCity survives -- we enjoy competing with them. Perhaps they'll figure out how to make money. But, leasing solar systems is a bad deal for homeowners, and potentially fatal for SolarCity and its leasing comrades (e.g., Sunrun, Sungevity, Vivint, et al). RIP, solar lease; Viva la vida, solar ownership!

EV+PV: My Leaf Hits 30,000 Miles

The odometer on my 2013 Nissan Leaf rolled past 30,000 miles this morning in-transit to our shop. Over the past 26 months, my affinity for the Leaf has wavered: Fun to drive, great for the environment, and (beyond) cheap to operate; major range and charging anxiety, less-than-cool design, safe as an aluminum can. For $200 a month (thanks to Hanlee's lease) with minimal operating costs, I can't complain.

We've opined about the PB&J beauty of EVs + PV: The ecological and economic benefits can't be beat. At 25 miles/gallon for a gas-fueled car, I have avoided purchasing 1,200 gallons of gasoline.

First, here are the GHG equivalents of 30,000 miles of electric driving (click here for a super-cool EPA GHG calculator):

- 10.7 metric tons of carbon dioxide

- 267 tree seedlings grown for 10 years

- 3.4 tons of waste sent to a landfill

A dent, but certainly meaningful (at least to me). Enter the economic side of the equation and the Leaf truly sparkles:

- Of the 30,000 miles, approximately half were charged for free (primarily at downtown Davis charging stations) and half at home.

- My cost of solar-generated electricity (produced on my roof) is ~ 7 cents per kWh.

- Every kWh of electricity fuels (hah!) four miles of electric vehicle transport.

- 15,000 charge-at-home miles divided by 4 = 3,750 kWh

- 3,750 kWh @ $0.07/kWh = $262.50

Pretty cool and, importantly, not unique to my situation: Two-plus years of heavy driving at a cost (sans the lease payments) of $262.50 with nary a naughty emission. Electric vehicles powered by solar-generated electricity can't be beat.

Tesla Model 3 + Solar PV: Perfect Pair?

A Repower homeowner and Tesla Model S driver asked me this weekend: What impact will Tesla’s just-announced, $35k, 215-mile-per-charge Model 3 have on the solar business? Timely question that prompted navel gazing, given last week’s announcement of the Model 3, the deposit I placed to purchase one, and Repower’s mission to help as many homeowners as possible go solar.

Good question, I replied. Wow, I pondered. Big, I think. Perhaps a game-changer/tipping point for the electric vehicle industry. My thoughts were shallow and streaming, yet to codify.

(BTW, Chuck Jones, one of Repower Director John Walter’s Stanford pals, has a worthy article in Forbes about the Model 3.)

From a car-driving, solar-consuming perspective, a few thoughts:

- Tesla CEO Elon Musk tweeted Saturday that 276,000 $1k deposits have been placed for the Model 3 … in two days. (IMO: The Chevy Bolt is DOA.)

- Today’s reasonably-priced, all-electric vehicles, including my Nissan Leaf, have limited range. Therefore, if you own a contemporary electric vehicle (sans a Tesla S or X), your demand for electricity is moderate.

- Repower homeowners are generating solar electricity for an amortized cost of $0.10 (or less) per kWh.

- For every kWh of electricity, you receive ~4 miles of charge.

You can see where I’m going. For a dollar, you can drive 40 miles (with no emissions). With the Model 3’s extended range, drivers will rack up more electrically-charged miles (versus hybrid electrics like the Volt or my range-constrained Leaf). And, with Tesla’s ever-expanding network of super charging stations, road-tripping to the Bay Area, SoCal, Oregon, et al is now feasible … with a $35k (pre-tax credit) car. At no cost.

What’s the impact on solar for homeowners with extended range electric vehicles? Let’s say you drive 15,000 miles per year and charge your vehicle 50% of the time at home (7,500 miles/year). Divide 7,500 (miles) by 4 (miles/kWh) and you would consume 1,875 kWh of electricity. If your solar system generates ~ 1,400 kWh per kW of capacity, you would need an additional 1.3 kW of solar panels. The math is simple and the trend is, well, trending.

And, the punchline: You purchase a Model 3 for $25,000 (after tax credits); drive 15,000 miles per year (with 50% charging done at home); maintenance with Tesla’s is free; and, your annual automotive expense would be $187.50 for carbon-free, no compromise driving.

That’s cool. Contact us today if you own or are considering acquiring an electric vehicle. 

The future is bright.