Help me decide BEV or EREV

[R1TVT]

I'm still just amazed they'll be able to fit a whole EA888 engine back there

What if the front was the back, and the back was the front? Imagine that render travelling in reverse.

 

[J Alynn]

Welcome to the forum!

And, a special welcome to the Cool Kids Club! The elite and exclusive group of BEV Terra reservation holders. We may be small in numbers but we make up for it in cool factor.

I feel like that has yet to be proven !

 

[Scoutsie]

I feel like that has yet to be proven !

Well, the people who think cars must be powered by at least some gas are missing out.

It’s a bummer that electric cars have to overcome the wrongthought that a car is somehow less-than if it’s powered by gas and not electricity or that it’s potentially hobbled without a gas backup.

 

[04Ram2500Hemi]

Well, the people who think cars must be powered by at least some gas are missing out.

It’s a bummer that electric cars have to overcome the wrongthought that a car is somehow less-than if it’s powered by gas and not electricity or that it’s potentially hobbled without a gas backup.

Infrastructure, battery range, and range anxiety are all legit concerns. I’m not convinced that gas is superior to a battery for everyone, but I am convinced gas/gas backup is a better option for me and where I live. I don’t look at it as being hobbled without a gas backup, I look at it as the best of both worlds. For day to day commutes to work, have the EV lifestyle. On rural trips or longer trips, the convenience of gas.

There was a thread a while back comparing road trips in a Scout with and without the Harvester. It’s not exact science, but it’s a fun tool. I put in the following trip I did, and a pure EV would have had to detour from the route. I’m not willing to make that compromise.

https://community.scoutmotors.com/t...traveler-bev-vs-erev-routing.7450/#post-67434

This is a high-altitude "Speed Run" through the Pioneer and Pintler ranges. In October, the thermal reality of Southwest Montana—where morning temperatures can dip to 25°F—will put your energy strategy to the test.
With 35" All-Terrain tires and a 15% Minimum Reserve, the Pioneer Mountains Scenic Byway presents a specific challenge: there is zero high-speed charging between Dillon and Anaconda.

I. The Mission Math (Comparison)​

Metric	Traveler BEV	Traveler Harvester
Total Range Strategy	1 Mandatory Charging Stop	0 Mid-Trip Stops
Est. Trip Duration	7h 45m (Incl. Charging/Detour)	6h 15m (Continuous)
Est. Energy Cost	$58.20 (Avg $0.16/mi)	$43.50 (Avg $0.12/mi)
Seasonal/Tire Status	Range -18% (Tires + Cold)	Efficiency -10% (Tires)
Route Integrity	Requires Detour to Dillon, MT	100% of Plan

Export to Sheets

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II. Leg-by-Leg Tactical Breakdown​

Leg 1: Missoula to Polaris via I-15 — 172 Miles

• The Route: Paved high-speed Interstate (75-80 MPH) followed by MT-278.
• Capability Check: October Status: Roads clear, but temps are 40°F. Your 35" tires are creating significant drag at 80 MPH.

Tactical Execution:

• Harvester Strategy: Start with 100% charge from Missoula. Use EV-Only for the first 110 miles. The Generator will kick in seamlessly near Melrose, MT, to maintain battery levels for the climb to Polaris.
• BEV Strategy: You cannot bypass Dillon, MT. If you drive straight to Polaris, your 15% reserve will be depleted before you reach the top of the Scenic Byway.
  • Stop: Tesla Supercharger (NACS) @ 570 N Montana St, Dillon.
  • Action: Charge to 90% (45 mins) to ensure you have enough electrons to "climb" the Pioneers.
  • Cost: $32.00 (@ $0.48/kWh incl. MT EV tax).

Leg 2: Polaris to Wise River (Pioneer Scenic Byway) — 40 Miles

• The Route: This is the heart of the mission. A winding, paved ascent to 7,800 feet at the Crystal Park summit.
• Capability Check: 35" Tires: Overkill for the pavement, but essential for the slushy pull-offs near the Coolidge Ghost Town turn-off.

Tactical Execution:

• Harvester Strategy: Use Hybrid/Sustain Mode. The generator provides the torque needed for the grade while keeping the cabin warm without draining the battery.
• BEV Strategy: Regenerative braking on the descent into Wise River will recover ~4-6% of your battery, but the initial climb from Polaris is an "electron hog" due to the weight of your 35s.

Leg 3: Wise River to Missoula via Philipsburg — 148 Miles

• The Route: MT-43 to the Pintler Scenic Highway (MT-1) and back onto I-90.
• Capability Check: Thermal Alert: As the sun sets, temps drop. The BEV will prioritize battery heating.

Tactical Execution:

• Harvester Strategy: No stops. You have ~200 miles of gas range remaining.
• BEV Strategy: Monitor your reserve. If the headwind on I-90 is strong, you may need a 10-minute "splash" charge in Anaconda (Discovery Family Center DCFC) to maintain your 15% reserve.

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III. The "Fuel & Flux" Summary Table​

Stop Location	Type	BEV Action	Harvester Action
Missoula	Start	100% Charge ($14)	100% Charge ($14)
Dillon, MT	Charge	+55kWh Charge ($26)	Drive Through
Polaris/Pioneers	Nature	Peak Elevation	Peak Elevation
Anaconda, MT	Support	Safety Buffer Check	Drive Through
Missoula	Home	Arrive 15%	Arrive 10% Gas/5% Bat
TOTALS	--	$58 / 7h 45m	$43 / 6h 15m

Export to Sheets
Note: Harvester cost includes $29.50 in Premium Gas (~8.5 gallons) + $14 initial charge.

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IV. Tactical Advice​

• The Seasonal Verdict: Your 35" tires and the October cold are the "tax" on this trip. In the BEV, they turn a 360-mile loop into a logistical puzzle because the 800V charging infrastructure hasn't reached the Big Hole Valley yet. You are forced to detour 15 miles south to Dillon to "fuel up" for the mountain pass.
• The Financial & Temporal Verdict: For this specific Montana loop, the Harvester is the superior tactical choice. Not only is it $15 cheaper due to the high cost of DC Fast Charging vs. current MT gas prices, but it saves you nearly 90 minutes of detour and dwell time in Dillon.
  
  
  
  
  

 

[Jamie@ScoutMotors]

I'm still just amazed they'll be able to fit a whole EA888 engine back there (pretty sure it's not going to be the lower power EA211). All in that engine is just under 300lbs however as an EREV I'm sure there are a number of accessories you can remove making it a bit lighter. This matters because according to their original diagrams, the engine will be sitting behind the rear axle and I doubt there would be space to move it up any further.
View attachment 13509
I'm on my second EA888 engine and time has shown VW is not great at making water cooled systems for cars, especially water pumps, so I'm very curious how Scout will deliver a reliable system here in regards to cooling. BTW outside of cooling it's a fantastic and durable power plant.

It isn’t an EA288. It will be an engine modified and simplified for our use.

 

[J Alynn]

It isn’t an EA288. It will be an engine modified and simplified for our use.

Thanks for the input

 

[DaveGunter]

Someone suggested this as a thread. People can put their situation and members can help decide between a ev and erev. Always good to brainstorm with the collective.

If the vehicle is going to be your only option the go EREV

If you have other ICE vehicles at your disposal then go BEV

 

[DaveGunter]

I just posted this to a similar question on the other popular forum, so will give my two cents on this topic. Technically I have owned both BEV and EREVish tech; specifically a Mach‑E GT for three years and a 1st Gen Chevy Volt for eleven. With the Scout BEV offering nearly 100 miles more electric range than our current EV, the choice is pretty straightforward for us. We already rarely need public charging, only on longer vacation trips, and a 350‑mile range will easily cover all of our regular driving. Like a lot of families, most of our longer non-local trips are the classic 1.5–2 hour drives to see relatives, which fall well within that round‑trip range.

So people really need to ask themselves whether they truly need 500 miles. And when they do, is it worth giving up the extra EV performance and taking on the added maintenance that comes with an EREV platform? It's true that Hybrid tech gives you the pros of both ICE and EV, but they also bring the cons of both. You still have all the maintenance of a gas vehicle and the battery considerations of an EV. As someone who’s been through it, the battery concerns are overblown, but new EV buyers will have to experience that for themselves.

Personally, I’d rather deal with the “cons” of just one technology and enjoy the full benefits of an EV. After living with the instant torque of the Mach‑E GT, I’m not interested in Camry‑level 0–60 times paired with its ICE complexity and maintenance. But that’s just me.

So take it from someone that has already had both techs as I now look at hybrid cars as nothing but a stepping‑stone for people who still have range anxiety or aren’t ready to trust a full EV yet. Believe me, I don't blame new perspective owners as I was once one myself as it took me following this same path before I went full EV. But the tech has come a long way, and for most drivers, especially those who aren’t racking up huge daily mileage, skipping the hybrid stage altogether makes a lot more sense today.

Interesting that the results of the same poll question on the other forum are very different.

 

[LastDayScout]

Interesting that the results of the same poll question on the other forum are very different.

That somehow doesn’t surprise me.

 

[04Ram2500Hemi]

Interesting that the results of the same poll question on the other forum are very different.

There’s only one Scout Forum as far as I’m concerned.

 

[SpaceEVDriver]

It isn’t an EA288. It will be an engine modified and simplified for our use.

That's good news for people who want the Harvester.

Not that I have anything negative to say about the engine---we had a one in the last ICE Volkswagen we had and it was great.

But I think it's good to take a look at what's needed and what's not needed in the specialized application of an EREV.

 

[SeaDam]

Wouldn't you have to drive enough to use the motor every so often in the EREV to avoid the gas going bad in the tank if never used?

 

[cyure]

Wouldn't you have to drive enough to use the motor every so often in the EREV to avoid the gas going bad in the tank if never used?

Welcome to the community.

There has been discussion about this and everyone agrees that yes you would need to. I don’t remember which video it was, either one from the 2025 CES or the Jay Leno video, but Scott said you will have options. You can either have it run on all electric, all gas or let the vehicle decide what is appropriate. So if you choose all electric all the time there would come a point where you have to run the generator.

The Wrangler 4xe makes you run the engine every 750 miles of EV only use.

Welcome again!

 

[LastDayScout]

That's good news for people who want the Harvester.

Not that I have anything negative to say about the engine---we had a one in the last ICE Volkswagen we had and it was great.

But I think it's good to take a look at what's needed and what's not needed in the specialized application of an EREV.

I’m sure that whatever it is, it will be considerably different from a regular vehicle engine. Its accessories package will be way different like the water pump you mentioned. Its accessories package will be optimized for static rpm. @SpaceEVDriver do you have a guess as to what the gallons per hour consumption will be? I would suggest that’s the best way to discuss the engine’s efficiency rather than miles per gallon. I would also imagine the intake manifold will be designed for low end torque rather than high end horsepower. Same goes for the head, valvetrain and exhaust. That will also contribute to lower NVH which will be very important. People will also need to get used to service intervals based on hours rather than miles.

 

[Gottesacker]

People will also need to get used to service intervals based on hours rather than miles.

Which honestly likely wouldn’t be that big of an issue if the computer on-board is keeping track of it. The computer’s onboard many ICE vehicles already keep track of the oil life.

 

[SpaceEVDriver]

I’m sure that whatever it is, it will be considerably different from a regular vehicle engine. Its accessories package will be way different like the water pump you mentioned. Its accessories package will be optimized for static rpm. @SpaceEVDriver do you have a guess as to what the gallons per hour consumption will be? I would suggest that’s the best way to discuss the engine’s efficiency rather than miles per gallon. I would also imagine the intake manifold will be designed for low end torque rather than high end horsepower. Same goes for the head, valvetrain and exhaust. That will also contribute to lower NVH which will be very important. People will also need to get used to service intervals based on hours rather than miles.

I don't have a good idea, but we can make some educated guesses and build an estimate.

Let's assume someone gets 85% of the EPA range estimate at 60 mph.

0.85 * 500 = 425 miles total.
0.85 * 350 = ~300 miles on gas.

Assuming a 15 gallon tank, that's 300 miles / 15 gallons = 20 mpg. The BYD Shark sees something similar.

And---because we chose 60 mph = 1 mile / minute---it's also 300 minutes / 15 gallons = 20 minutes per gallon. Or 3 gallons per hour at highway speeds.

If the tank is a 10 gallon tank for the same range, it's 30 minutes per gallon, or 2 gallons per hour. A smaller number is better here.

If it's a 20 gallon tank for the same range, it's 15 minutes per gallon, 4 gallons per hour.

If the range is 350 instead of 300 at 60 mph, then things improve by about 16% or 1/6th.

 

[J Alynn]

Wouldn't you have to drive enough to use the motor every so often in the EREV to avoid the gas going bad in the tank if never used?

Welcome to the forum!

 

[04Ram2500Hemi]

Wouldn't you have to drive enough to use the motor every so often in the EREV to avoid the gas going bad in the tank if never used?

For my normal daily commute, here’s my plan:
-Fill Gas Tank
-Charge battery to full
-Run on battery only until 15%
-Charge battery to full
-Run on Gas/Battery until tank is under 1/4 tank of gas
-Repeat

 

[cyure]

For my normal daily commute, here’s my plan:
-Fill Gas Tank
-Charge battery to full
-Run on battery only until 15%
-Charge battery to full
-Run on Gas/Battery until tank is under 1/4 tank of gas
-Repeat

Quick question. They have stated they will have a setting that will allow the truck to determine what needs to be run, battery or generator both. Is there a reason you wouldn’t select that setting as opposed to you changing it based on this formula above? Just curious.

 

[04Ram2500Hemi]

Quick question. They have stated they will have a setting that will allow the truck to determine what needs to be run, battery or generator both. Is there a reason you wouldn’t select that setting as opposed to you changing it based on this formula above? Just curious.

I’ve actually given this a lot of thought. The “auto” setting is probably the easier way to go, and maybe what I’d settle on eventually. But if I’m buying an EV, I thought running on pure EV when I can would allow me to get the best of both worlds. Most days I only drive 10 miles, so if I force EV mode, I’ll go a lot of days before having to charge or fuel.

I think anybody that goes with the Harvester will play with the settings a lot before landing on the setup they like. The EV thing is a whole new world to me, and I’m taking a much slower approach and just dipping my toes in. I’m not ready to give up the gas burner option just yet!