How Much Money Do You Burn Idling?

BEST advice yet.

That's a really good idea.

Yes. For a guy thats usually so ridiculously precise, the auto shut off on these pumps is sporadic to say the least, disappointing

@@JonnyD3ath At this scale, it's not likely to make a big difference, but it's not precise or accurate, I'd agree.

Correct me if I'm wrong, but I heard it doesn't measure the fuel consumption, but the air intake and deduces the fuel consumption from a data table. I asume that this table will only apply to a warm engine.

:*( You should go in and watch him some time.

@@randoedits6906 always did, can't now, COVID BS

@@SteveEh Sorry I shouldn't of put my nose in it it just sounded different and made me :(. Forgot about covid cause I'm a dummy.

@@randoedits6906 Takes a smart man/woman to admit they're a dummy.😉

@@randoedits6906 Damn, you hit him in the soul.

Not only rpm is different on cold engine. Fuel to air ratio and some other things like timings. I suspect first 10minutes might show different efficiency.

I figured someone else would be saying this, so I came to look for it.

The same time that also causes most wear on the engine.

A gas engine consumes about 3 times more gas when its cold.

@@p12jacob maybe US cars , but for sure not european or german ones.
That is not such a big deal cause the difference on my 10 km commute between summer and winter is just about 0,7 liter per hkm or 5,6 L versus 6,3 L in winter with a 0°C winter and 20 °C summer both without AC on.
that means 12% more during winter commute.
But off cause if you count the first 5 seconds only then it can be higher but for sure not 3 times at least on our engine tests in climate chambers that can simulate -30°C nights. Next morning the cars do have to start instantly.

My car does the same. I'd assumed they all do these days. I've found it interesting how much difference the AC makes when idling

thats perhaps why you would do such a test as they did here. to see if those numbers are accurate based on weight or volume of fuel. Some vehicles estimate many things.

Most modern cars do that and they are rarely accurate.

@@mildlydisinterested They have always worked well for me. But I also account for the physics/limitations at play and set expectations accordingly. What are you basing these "inaccuracies" on?

@Matthew Hayslett Would it help you to understand that it cant read the future to predict your route/terrain/driving style/trailer load etc like some kind of fuel genie... and thusly bases its estimate off the last trips fuel mileage. So when you just got back from that slow 45mph highway cruise averaging 30mpg it predicts you will be getting 30mpg the next time you get in and start your 3 block long burnout 🔥 😆

I guess it really only costs any of us a few dollars and a couple hours time to figure this out for our own vehicles. I too wonder about the diesel since they can run so lean. I offset a lot of my warmup time on my diesel by using my block heater, and it has a bonus of helping keep the ice off the windshield :)

Yes - and also how how much extra demand was due to the alternator (and other accessories). Actually I assumed they would have warmed up the vehicles prior to the idling test.

An emissions free diesel should burn 0.084-0.100 gallons per hour per liter of displacement. 60-70% of the average gasoline engine. 13% is due to the extra thermal energy in a gallon of diesel. The other 17-27% is mostly due to higher thermal efficiency and reduced motoring power requirements (compression ratio/combustion chamber shape and lack of intake air restriction). AFR is a minor contributing factor.

That's a good point and I think the best way to test that is to just idle them for however long it usually takes (20-30min?) to get to temp, turn them off, let them cool down, rinse and repeat. It would have been interesting to see a 2nd/3rd gen Prius Hybrid or Civic Hybrid thrown into this mix. As much as I love my Civic's, the Prius is just an overall better hybrid car.

@@zacharymorris9917 you've come a long way from the saved by the bell days friend ;)

Absolutely. If nothing else, it's "common knowledge" that ICEs burn more fuel less efficiently until they warm up and that it takes longer to warm up the cooler the surroundings.

The fuel is different in the summer. Significantly less butane. That makes it difficult to compare accurately.

@@claws61821 I didn't know about "Cold-start fuel enrichment" until I messed with a standalone ecu back in my Miata days lol. Had to buy a book to understand injector settings like pulse width and even getting a good idle. Ended up having to sell it all but anyways yeah, it's in the programming itself to run rich until a certain engine operating is reached.
I think a good example of this is how on old carbureted vehicles you typically have to give them gas as your cranking to fire them up.

I get about 10 miles per PBJ on my bicycle.

@@slob0516 Not bad going - Frink tells me that's about 40 km/kWh:
10 mile / (350 kcal) -> km/kWh
1609344/40705 (approx. 39.536764525242596)
:)

Include eBikes, and do a DIY rebuild.

@@slob0516 You should be able to go 10 miles on a bicycle with about 80 Wh of energy, that's equivalent 69 kcal.
A quick google tells me a PBJ has 390 kcal.
So you and your bicycle only have a 17.7% efficiency.
That's about normal for an internal combustion engine in average conditions. So, you're actually not doing the environment any favors by using your bicycle!
Or you guessed the wrong numbers ;-)

@@slob0516 that’s not good at all. Much better would be with electric bike and solar charging 😏

heat pumps are not best heating method in this scenario as the ambient temperature where they did the tests is clearly below 40f. if the ambient temperature is above 50f then hands down heat pumps rule and their efficiency is unparalleled but their comparatively narrow temperature range is their achilles heel

I have a PHEV but the EV part is probably an afterthought. The engine does not seem to stop below 10C, but it does charge the batteries a bit, just enough to move to the next corner. So it functions as a heating/charging device instead, even with a full battery. Really awful design, several lessons in bad engineering, but it's a short lease anyway.

Thank you!
you were probably the only one, who ran the numbers with the data we had, many others out here want to run a 8-hour test for whatever reason lol.
I guess they don't know about extrapolating or simple multiplication 😁

If you were instead only idling for 5 minutes or so for your start in the morning and your start heading home it would probably be a bit less in a season. I only typically let my engine idle for 5 minutes in the morning and 5 minutes in the evening each work day. If I'm in a hurry it sometimes only gets a couple minutes but usually more than enough to give the engine a chance to start warming up.

@@kuhrd I totally forgot about the after work part. Yet either way its still a good ball park estimate for someone.

@@kameljoe21 yeah add a x2 your numbers are still good.

To me a more interesting way to contextualize that data comes to converting the fuel burned to potential road miles. 10 gallons per winter season on a small family car is pretty reliably about 300 miles on the road. To me that feels a lot more expensive.

Very good point, seems that they used the same pump on the same day, just hours after the first trial though. Good enough I would way, and when I thought about the "proper" way to do it, everything was rather complex tbh. Would love to hear a good option though.

How long (time) could you drive at highway speeds for in the subaru?

The issue with Model 3, or any contemporary electric car in that manner, is the battery/energy pack. Read the original publications of Nikola Tesla on his Tesla turbine and, if have some technical background, you will understand why the current battery-electric cars are a huge waste of resources. Note here I am not defending ICE by any means as it is a hugely inefficient thermodynamic transformer.

@@lordsqueak It’s about 33 kWh/gallon for unleaded. The gasoline engine will have less than about 1/3 of the thermodynamic efficiency driving the wheels than an electric vehicle like the Model 3. The Model 3’s MPGe is 134. The Outback is rated at 34 MPG Highway. You get back some of it using waste heat that would otherwise be thrown overboard to heat the cabin, but that’s not much.

@@EfficientEnergyTransformations A Tesla turbine is a machine for converting high pressure gas into motion. It has nothing to do with electric vehicles .. what the heck are you talking about?

@Abstractism My magical electric car runs on solar energy generated from my rooftop for free and costs me a couple of cents per mile if I charge from the grid.
And the truth is, even if I run it off of coal-fired or natural gas fired power plants (which is already getting replaced by solar/wind+storage), the amount of emissions/mile is still a fraction of what a gas car would produce.
Seems like you cannot handle that reality does not match your assumptions and has to resort to calling everything "communism". Lol.

Here in Australia, it's not the cold, its leakage of Victoria Bitter into the air intake.

@@godfreypoon5148 Many would argue that any use of VB other than imbibing is ok and should be legislated, but I have never head of, or had to remove VB from an air filter box or intake. manifold. This may be an artefact for those frequenting Dingo Per Creek.
The ingesting of XXXX or Great Northern by a vehicle intake manifold is considered a capital offence in Qld.

I was impressed by the Mustang as well, much less than I expected

4 cylinder mustang. 🙈🙉🙊

@@justingauche6475 oh really? Didn't catch that!

@@justingauche6475 I figured the smallest they would make is a 6 cylinder but I just looked it up. Ecoboost is a 4 cylinder turbo 2.3L! I missed that somehow.

Same in the UK... Huge difference...

Ditto here in New Zealand, where we're bracing for NZ$3/L this year (over NZ$11/gallon).

​@@thromboid That roughly equates to $7.45 USD per gallon. At the height of the gas price spikes around 2010, I remember places in california selling gasoline for up to $6 per gallon. I was in Louisiana for the Hurricane response this last september, and I (well, the government) paid $2.40 per gallon. Combination of low fuel taxes in that state and very close proximity to the refineries.

perkele :D

That's insane

Heater doesn't consume any fuel, AC and everything electrical indeed do however (because they pull on the alternator)

There was a video some years ago about a guy who hyper drives. Said person would shut off the engine while waiting at stop lights due to the 5 plus min waits. Would coast to stop light rather than run the engine. Was getting like 100 mpg driving like this yet it was super complex to do.

ya frequently shutting your car down and starting it back up is very rough on engine especially the crankshaft and camshaft bearing are without oio for few seconds before oil pump makes enough pressure to pump oil to those bearings.
every "green" measures that car manufacturers are taking are coincidentally harming the longevity of engines. planned obsolescence, Perhaps

Batteries are the biggest victims

@@TykeMison_ 'Fun fact' No it stored hot engine coolant. Even in your perfect world...... 3l of exhaust gas would contain insignificant heat energy.

I have learned it depends on if it is diesel or 'gas'.
A cold started diesel can consume up to 200% extra fuel, until the engine is hot. If started in freezing winter, and the cars heating system is trying to defrost windows and the cabin (cooling the engine down) - it can take a *long* time before the engine is running at optimal/100% efficiency.
This is why oil burners and/or electric heaters are really popular in certain regions/countries with cold winters. They help a *LOT* on fuel consumption and it is a joy to enter a car that runs great and is above freezing. Most can be set on timers, so fire and forget :ø)

It’s not only the rpm, it takes longer time for the engine to get to ideal temperature. Until then the engine consumes mor gas. So it’s both the factor of efficiency and time

Same here in UK 🇬🇧 I always fill the tank up to the brim. The pumps here will auto shut off about 4 to 8 times before the tank is completely full. Also with my Toyota Auris 1.4Ltr Diesel the pump usually cuts out more often on a warm day. I think it has something to do with the air pressure coming out of the filler neck as the fuel starts filling up the tank and pushing the air out.
I can't see this method in this video being very accurate.
Interestingly running my little Toyota Diesel in summer as opposed to winter makes a massive difference to its fuel economy, it ranges from 62Mpg in summer to 28Mpg in winter around the city traffic. So over double the mpg on a warm sunny day.This is with UK Mpg and Imperial gallons figures.
It will also soon be illegal here to leave a car idling or to sit in a car with your engine running. Obviously Stop Start switches my engine off automatically when stationary in traffic or at the lights and automatically restarts as I pull away.

I have found the same. That was not a good approach.

However, you could argue that the same pump on the same day would be relatively accurate, enough for this basic experiment. You would be within a few dimes most likely.

Yep, keep pumping til she makes a mess down the side of her flank. 😁 Give it a rock and let 'er settle, than squeeze one more in for good measure and any air bubbles to rise up.
(Yes, still talking about refueling, but take that how you will!)

How were you able to determine its accuracy?

I measured less than 0.1 gph AC on and off. Nothing for blowers.

I doubt it. The heat generated by the engine has to go somewhere, either the cabin or outdoors through the radiator. This doesn't change. The electrical draw from the blowers is trivial compared to the power generated even by an idling engine.

Heater blower, rear defrost, heated mirrors, heated seats, heated steering wheel and lights have a significant impact on engine load.

@@TechIngredients might be surprised there. just on a guess I would say a blower on high with incandescent headlights on (not high-beams) would pull 0.4hp. also you could look at things like window defrosters, heated seats, radio, and ect. if I am remembering right, my 1.8t audi consumes about 0.56LBs/minute of air at idle which is close to 4.9hp so about a tenth of the energy goes to that. personally I put an external 115v coolant heater on mine that kicks on about an hour before I leave for work.

Even if the alternator was only 50% efficient (its way better than that), it would still maybe use about 2KW at full load with every electrical device on the vehicle turned on. The majority of the work being done by a gas engine at idle is called pumping work, which is the work the engine needs to do to suck air past the throttle blades that are restricting the air flow, and it is far more than 2KW of power needed to do that. That is one of the reasons diesels use less fuel at idle is they need to do less pumping work.

We allowed them to cool down during lunch.

Some cars have build in flow meter. My 20 year old Toyota can show idle consumption if speed is 0

My old BMWs have exactly this feature, but it's "hidden" behind a secret menu. On my 98' 540i (4.4L V8), the car told me I averaged 1.8L/hour at idle when warm. My 08' 550' (4.8L w/ aftermarket supercharger) burns 2.2L an hour according to the computer. It's an instantaneous value, so even minor changes (seat heaters, AC usage) can be observed. I don't know if other cars have this feature squirreled away insome obscure menu, but it wouldn't surprise me.

eehm... with all this data to be looked up, isn't it easier to just look up the idling consumption figure instead?

@@pattonpending7390 bmw uses fuel burned calculations for its oil life calcs. Not sure if all manufactures have this pid in the ecu

This isnt as easy as you think, injector dead time needs to be factored in, and dead time varies with alternator voltage and fuel pressure.

ensure*

@@mokahless I tried to fight this battle too but apparently the arbiters of English has decided that they're interchangeable :(

And a valvetronic bmw as well. I can see much higher intake velocities leading to more fuel dispersion, but they claim to reduce throttle losses and I am sceptical because I think the throtteling is now done by the valves and you still have a vacuum on the intake stroke...

Shouldn't be a surprise really. How many revs does an idle car generate? Just enough to tick the engine over and that is it, so it should be a comparative amount of fuel.
If you consider your body like an engine (or several small engines and a couple of big engines all working in tandem), while at rest your body is using bare minimum and is quite efficient at consuming the fuel you gave it. You might use a little extra when you are cold, but if you are not moving much, your fuel requirements are very low, if you are moving and working up a sweat you use much much more fuel and you know it too, by the time you get to the end of the day you are probably eating in to the fat stores looki go forwards to a big meal, ready for the night ahead.
And when you look at food that way you realise that it might be more effective to eat a heavy meal in the morning, and a light meal late at night when you are physically moving less.

Many are even less than this, my 2011 kia rio only uses like between 0.15 and 0.2 gallons per hour (maybe 0.35 gallons in 2 hours).

@@dennis8196 Actually your body works quite different. You don't use more than 25-35% more energy while woring out, than when you are "idle". Thats why it's a pita to lose weight.

@@fritanke2318 I think you have a typo in your comment there - looks like a missing letter "h". :D

once the car is warmed up and the battery is almost charged, then there's almost no load on the engine besides the ones to keep itself running and the efficency losses... so it makes sense that a modern engine would consume very little amount for those

The results from the video seem to suggest idling doesn't consume much at all! I bet your higher fuel consumption was caused by the excessive accelerating from stop/start traffic 😉

@@bayney08 No, it actually correlates. I consumed very little fuel, just most of it was spent idling. I filled up maybe every two weeks. Now I travel more, and fill up every other day.

@@beliasphyre3497 same thing with my car now. City traffic's so bad in my country that I see my fuel gauge go down after a day of driving around nearby stop & go traffic. So much worse compared to driving on open roads, even if it's a longer drive.

A lot of manufacturers run a very rich air to fuel ratio in very cold climates to help warm up the engine faster as well

Diesel guys up here in Canada where we see -40 all the time, have a fast idle module that lets you flick a switch to raise the RPM so it can actually warm up and give you interior heat

@@potatojz38 That right... and theres Friday after Thursday. That's true, too. But what does it have to do with the subject of my comment?

It must be lovely living in such a progressive society!

@@jasond3954 Ranked happiest country in the world for the fourth year in a row now.

Things to consider indeed! Power density of the engine typically affects serviceability and hence repair costs so these need to be balanced in regards to mileage, type of mileage, age etc.

What about capacity/ lost due to low temperature? Batteries are chemical reactors. Guess what cold temperature does to battery. You say heater for battery - capacity. What to do when you need service, almost no way to fix it yourself. Some vehicles have electric heater built in for the start...

good luck running heat pump for temps below 0c or - 3c. their effeciency takes a nose dive below 0c. so much so that you need secondary heat source to bring back their performance. all this creates a huge drain on battery consumption. which already has limited energy that it can supply.
so no electric cars are not better in this scenarios

One can install a electric heater on the block or waterhose. i prefer the hose model cause some of em has a pump to circulate the water when heating with ac. webasto and others sell em

Also no pollution sitting in traffic. Sure, you use some electricity for heating or AC, but no need to run the motor.

@@pfoxhound the battery in most EVs is heated or cooled to keep it happy... that heat comes from the battery's own energy and is "wasted" ie: not used to move the car. Sounds like you knew that though... as far as working on them yourself - after about 1985 when electronics got involved with carburetors and later fuel injection - "working on your own car" became a thing of the past. Other than an oil change or maybe an air filter - I'd guess most drivers any more never see the inner workings of their cars.

I remember seeing that, it's like a huge thing there they just open the truck window and the AC thing just hooks on the side.

except in reality they suck to use and they really don't work that well. Having tried to use a few with my truck they usually smell like mildew and don't work as well as the generator built into the truck. Most trucks have onboard generators for heat and AC now rather than idling.

@@MisterEmoto well that's disappointing to learn.

Very relevant question, especially when the motor is already at running temperature. I can't help but think that the start/stop on most modern cars (mandatory here in Europe) is more of a feel-good measure that saves very little actual fuel. Especially when considered against the total fuel consumption of the car when being driven.

Heater doesn't use additional power.

@@zachary3777 The blower motor does. Although it'd still be insignificant.

@@zachary3777 Unless it's a battery electric machine.

Good thing I skimmed through the comments, was gonna write the same thing

If manufacturers were smart, there would be a circulating block heater on every vehicle sold in cold climates.

Diesels are great idlers so you can expect less fuel usage for similar displacement.

About 0.5 to 1l per hour on a 2l td. Depending on temperature and load. Realistically you're looking at 0.8l / hour on average.
from a 2014 volvo D4

@@CynHicks if you can get it to start. In very cold climates you may need an electric heater to warm the vehicle before starting.

@@TotoGeenen totally agree. My Volkswagen Golf 2.0l TDI (Diesel 140hp) from 2006 uses 0.7l(~0.18gal) of Diesel per hour in idle mode, If the AC and other consumers like headlights or radio are off 0.6l(~0.13gal) per hour. Greetings from Germany

@@TheGamerFeat0815 yeah that sounds about right. Cheers mate

Easier yes but vehicle dependent measurement bias, since the car itself is the measurement device. Having the same measurement device between different experiments that you want to compare with each other is quite important.

Siena I'd not be concerned about differences in measurement sensors. On all cars the sensors are going to be very accurate as the computer relies on that data to deliver the correct air/fuel ratio to each cylinder.

I think after diesel gate most of us stopped trusting scans like that lol

Thanks!

I'm no authority on the matter, but I think most modern fuel injected engines shut the fuel off when engine breaking. Since the engine turns by external force, you only need to start inject fuel again once the breaking stops and it keeps going. Could be wrong though. Should be easy to check with an OBD2 interface.

​@@AnWe79 Sure, but how do the injectors know that the engine "turns by external force" ?

In modern vehicles, none. The injector duty cycle is reduced to effectively zero.

@@MrGustavier Throttle position sensor.

@@AnWe79 *braking
We prefer not to be breaking our engines.

Thanks!
Going forward, we plan to insert these here and there.

At closed throttle the compression ratio of ambient pressure to max pressure goes down dramatically. An idling engine has not 13:1 but close to 2:1.

@@pepethefrog7193 Sure, but it's all relative anyways. I'm saying physically the volumetric compression ratio differs between the tested vehicles, and that can account for their differences in idling fuel consumption. If 13:1 becomes 2:1, then 10:1 becomes about 1.5:1 no?

Interesting. Being that it was cold out when they did this wouldn't the fuel in the tank at the station likely have been cooler than the fuel in the tanks of these vehicles? Most vehicles have a fuel return back from the engine that would have warmed the fuel in the tank and according to your theory made it expand. So, it's possible that this test would have shown less fuel consumed by the vehicles.
Now, lots of vehicles are also returnless systems so this wouldn't apply except for the heat generated by the fuel pump motor in the tank.

Ah a fellow driver. I did exact test you mentioned comparing cold start vs hot start. Last year I calculated if hot start, it cost about 24 cent per hour of idling. Most of the gas is wasted while engine is running in open loop trying to heat up to running temperature. Maybe it's worth going back and graphing fuel consumption from a cold start this year.

My 1.9 TDI PD uses .45 gph when cold, to .22 when warmed up. From adjusted obd data.

@@ignasanchezl so as far as I can tell, the TDI PD engines have no throttle body but they do have some kind of anti-shudder valve that closes partly (I don't know how much) at idle. I'm surprised a diesel uses basically as much fuel as a similar displacement gasoline engine. It has a 19:1 compression ratio which is sane for a diesel. Maybe the variable geometry turbocharger actually creates enough enough exhaust back pressure at idle to make the fuel burn that high? That's my only guess other than the anti-shudder valve as to why it uses so much fuel at idle. Most normal turbochargers wouldn't even be spinning at idle.
It could be that I'm way off about the difference between volumetric efficiency of car sized gas and diesel engines. Maybe that's mostly a truck/tractor thing.

anti shudder valves also act as a way to increase EGR recirculation.
Also I might need to adjust my data.

@@ignasanchezl Yeah, I had to look up a lot of what I learned about those engines. Most of my hands on experience is with military diesel stuff like the HET an HEMTT which have a CAT c15 or similar. The engine weights as much as a car but its a whole lot conceptually simpler than any of the TDI PDs. When we were using HEMTT wreckers a lot of the time we would just leave it on even overnight. Of course I wasn't on the hook for paying the gas bill but I would have been in deep shit if I ever let it run out of fuel.
I know for those its way, WAY more efficient to just let it run than shut it off and let it cool down just to restart it. From your numbers that seems less applicable to diesel cars.

The only impact is that idling reduces cylinder pressure, therefore reducing piston ring tension and increasing blow-by. Lots of idling will cause this acidic blow-by gasses to slowly thin the oil and chew up the TBN.
However, idling for 10 minutes in the morning before you leave won't reduce your oil change interval by much. If you normally change at 7000 miles for example, maybe change it at 6000 in the winter. But this is really for people that idle for hours per day like patrol cars and contractors. Vehicles with smart oil meters like Ford actually calculate the idle time into its equation.

The engine will probably outlast the windshield.

The quickest way to clear windscreen fog is to use defrost setting on the climate control - this will turn on the a/c as well as heater which dehumidifies the circulating air for max defrost.

@@jimmychin8313 the AC does not turn in the freezing because (mr. obvious) it is at risk of freezing the evaporator.

@@andrewt9204 We change our seldom driven (less than 5,000 mi/yr) twice a year machines' oil in the Spring and in the Fall and this seems to work fine for n/a and turbo applications. We could probably do it once a year on the not turbos but idc.

I should think you'd have better things to be worried about... 😅

Systems that preheat the engine without it running are a great. I know in some cold places in the world it Is not uncommon to have a electric heater installed on a car. They are plugged to a wall outlet.

@@MegaMoonse Yep, we had block and battery heaters in Alaska. You might get away without the block heater, but definitely not the battery heater. I had my car unplugged when leaving it at a hotel for 2 weeks (with permission), and it killed the battery. I had to do that frequently, so I started keeping zip-ties in my car to discourage people from "borrowing" my cable or outlet.

Would be interesting to see how usage changes w/ full heater and w/ full A/C.

Unnecessarily long.

The county Dept of weights and measures checks every pump every year. That's what that little seal is with the month punched out. They have to be within half a percent per 100 gallons.

Thats irrelevant as long as filled it up the same way first.

Those differences should be minimal with the same car, same pump, same position, similar environmental conditions. Car-to-car I would think those variables might matter more. Since they used the shutoff point to fill them before and after - should be pretty close.

Its usually a small hole at the end of the pipe, when it gets blocked by fuel it shuts off, youre probably talking very small tolerances between each fill.

As long as auto-shutoff works the same for each tank both fills it doesn't matter if there are differences between the different vehicles, the amount of fuel burnt will still be accurately recorded.

of course, i mean the alternator is a 12V generator. But you're going to have to find a way to fit your 120/240V alternator somewhere...

Car can serve as an emergency genset. I do use mine that way, but be warned... Anything more than 500W is going to put significant load on both alternator and battery. It can do over 2kW briefly but consider capacity of your battery - if its 40 Ah batt its going to sustain such loads for seconds, tens of seconds, if its 170Ah its going to be way better, but also take in account that your alternator is not going to meet its rating while idling. Overloading it is pretty easy. Also take in account that while you draw 1kW from the inverter, the currents on the 12V side are enormous and need proper connections and really beefy cables
If you do have some space in engine bay, consider using 230V (or whatever voltage you need :)) gen directly. I would use some pulleys and belt system to engage/ disengage it. This solution would also need some rpm government. Some loads wont be happy with skewing or mismatched frequency and widely varying voltage.

@@JanicekTrnecka my truck makes a couple hundred horsepower at idle. How cool would it be to have a gearbox with a dedicated shaft for neutral (or a special gear) that plugged into a dynamo generator 🤨 I think I just came up with a patentable idea.

@@PatrickGunderson You re late wit that, some specialized trucks do have that kind of output shaft... sorry for being a partypooper :-)

@@PatrickGunderson its called a PTO and tracktors have it :) but actually gearing isnt something that makes sense for a generator's alternator. gears trade wheel RPM for torque, or visa versa, but an alternator is designed to work at a specific rpm with variable torque. constant speed alternators work at usually 3000rpm or 1500rpm. if you spin them faster they dont make 50Hz/60Hz at more power but rather 55Hz/65Hz which would be bad for the electronic devices. instead they modulate the amount of fuel squirted in, i.e. the size of the bang, i.e. the torque. these kinds of constant-speed alternators are much more efficient than the kind in your car, we're talking 40% in a car to 60% for a proper diesel genset. yeah despite alterntors being 90% efficient in general, how efficiently you spin them is where all the losses are.

i4, not v4

Germany...always with the goose-stepping authoritarianism! What will it take to convince Germans that top-down government pseudo-authority is not the right way to solve problems? (I'm thinking it will eventually be a nuclear warhead or two. ...Or it just won't happen.)

@@JakeWitmer I spent a year working in Germany. Obedience is built into their culture. When they said, "I was only following orders", that's a real thing over there, it has a different meaning for them. Ever since the end of the war they have classes in school that try to teach them to question authority. Most of Europe is that way, but especially Deutschland. I think that is why they have such a long history of slaughtering each other.

@@RealDeanWinchester Yes, and it makes perfect sense when viewed through the lens of Prussian-style education. ...Just like America makes sense when viewed through the same lens. ...Because America adopted the Prussian model in 1852.
The government's inherent interests are not the same valid interests that the parents and students have. They want to make obedient little worker bees and soldiers.

@@JakeWitmer pretty much. I remember that they had 3 or 4 garbage cans in each room 3 for recycling and one for "garbage". They would scold me for not putting things in the correct bin, 😂. After about a week of that i just started handing them my garbage, "here, you do it". Sorry guys, I can't be trained to perform your tricks. They had really good coffee though 😂

In the US, it isn't uncommon to see a vehicle make a single trip of perhaps 3,000 km or even up to 5,000 km for a vacation road trip. I know I am much more comfortable on such a trip in a much larger vehicle than most Europeans are used to. And while we complain about the cost of fuel, I know in many places it is much higher. So it isn't particularly economical, but it is more enjoyable. Driving from one coast to another, Los Angeles to New York City, is about 4,000 km. One way. In my experience, the larger engines tend to hold up to that kind of work load somewhat better.

@@DavidSprings Such long trips are almost unthinkable in Europe. We rather take a train or fly.

@@johansvideor A prevalent TV ad in the seventies was "See the USA in a Chevrolet."

After seeing Chinese parts in VW manufacturing I'm hesitant about long term ownership of a TDI

@@iseiyoulaitre the 1.9tdi is known to last forever, mine only got 300k on the clock, but a have a mate which is close to 1.2m now.

Use a "tarp" on the window at night (outside). Ventilate moist air out of the care in the evening when you park it. If you can, leave a small (1mm ) ventilation gap in a window when you park. Keep the windows clean. Unfortunately you can't beat a garage or proper roof. Sub zero C night temperature here 3-4months a year.

Get a block heater. Same ones they use on diesels.

@@aleks138 block heater for sure works to lessen that idle time needed to warm up. 30 years ago in my Uncles 1982 Pontiac he had an aftermarket electric floor heater and a block heater! Fastest car out on a cold morning! haha

If you know it's going to be a *really* cold night, place an incandescent lamp or two (+60W) inside the engine compartment near the engine block where it won't melt anything and/or catch on fire.
It's a 'poor-mans' version of an engine heat block, which basically is an effect resistor that heats up the engine block.

Block heaters are 500-1500W and directly heat the coolant. I have a hard time believing 120-200W just placed under the hood will make any difference

Thank you.

Which is going to happen regardless so is irrelevant to this test, so long as the relative temp of each vehicle was similar.

@@Chris_Garman running this test from dead cold, will greatly increase consumption. A more accurate test would be thirty minutes from dead cold. Four times in a row. Fuel consumption will be doubled I expect.

We've been to Darwin and I have to say the weather was awful. Here in New England we don't have access to those kinds of conditions nor to a desert, but airconditioning does use a lot of energy while heating is just a free biproduct of the idling engine.

and what country is that? electric cars are far from replacing ice cars in the wasteland of sweden where i live, media tries to sell that idea but when you look att car sales its bullshit

@@treaser2EV sales are skyrocketing everywhere, even in northern Europe. You're the one who's spewing bullshit here. Have you ever actually talked to an EV owner how their experience is?

@@mikko3d phhf haha, look and the numbers and not your special pink feelings. 92.5% of the people in europe is still buying a new ice car says ACEA and then its mostly in spain that the ev cars are sold, hardly north eu.
I own a EV motorbike so i dont get your point there, facts are facts.

@@treaser2 EV's are still a new technology and it will of course take time to gain market share. Combustion engines are not going away any time soon, and will have their uses in the future.
I have looked at the numbers and the trend for EV's clearly up, so I fail to see your point. In Finland over 10% new cars were EV in 2021 up from almost zero a couple years earlier. I see it everyday where I live. In Germany latest numbers is about 20%. Your neighbors in Norway certainly seem to like EV's also, given that over half new cars are EV.

@@treaser2 might want to check your neighbour where 60% of all new car sales are EV and many other countries are not trailing far behind if it was not for supply issues. secondhand EV's are more expensive than new ones in many countries because it takes months to get one.

Kip Kay lol, I remember him. His imfamous laser pointer hacks cost me a lot of time and money(they cost a lot back then). Never worked.
Good idea about using a generator and a resistive load.

You're welcome and thanks for the comment.

The start stop system on my car stopped working a few months back... I'm in no rush to get it working again, even under warranty

@@grayrabbit2211 My car's start&stop only work if the ambient temperature is more than ~20ºC/68ºF and the engine is hot. I only see it working some days on June and July.

@@echomgm I haven't found a temperature range where mine won't operate. A few months back, I came to a stop and the engine stopped. The light turned green, the engine started and stalled. I had to re-start the engine using the ignition switch. Ever since then the car hasn't tried to stop the engine, fine by me. The weather since then has been as high as 31C and as low as 1C.