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| The sign at the New York BMW i Born Electric Tour claimed a 100 mile range for the i3. It's looking like the EPA range rating will fall short of that. |
My conclusion back then was if the BEV i3 had a real 100 mile range I would probably pass on the REx, but if the range was closer to 80 miles and the REx was only about $3,000, then I would probably go for it, providing I didn't have to wait too long after launch for the REx to be available. As it turned out, my fears about the range were justified. Even though I don't have proof of the EPA range rating yet, I feel confident by now that the range will be less than I had hoped, and that the i3 will have an EPA range rating that is somewhere in the 80s. I drive a lot and that's just cutting it too close for me. At 90-95 miles per charge I could probably do it, realizing that after 2 or 3 years the range will likely be in the high 80s anyway. A 100 mile EPA rating would have absolutely eliminated the need for the REx, but no company outside of Tesla is offering that on a real EV (one that is available across the Country). So at $3,850 the REx is a little higher than I would have liked it to be, but it's not astronomically overpriced, considering the utility value of having it on board and ready when you need it.
So after bouncing back and forth a few times, I've decided I'll be getting my i3 with the range extender. After about five years of driving pure electric, I'll be back to hauling around an ICE. I don't love the idea, but I'm not hung up on "pure EV" dogma either. The goal is to use less gas and if the range extender allows me to drive on electric the vast majority of the time, yet still have the utility I need on the days I need to drive farther, than the goal is accomplished. The i3 simply won't have the necessary all electric range that's necessary for me personally but that doesn't mean it's not enough for many others. As you can imagine I'm not alone with the struggle to decide which version of the i3 to get. Now that the i3 is available to order in Europe, and only weeks away from being available in the US, I'm reading posts in the
i3 forum and in our
i3 Facebook group where others are grappling with the decision of if they should go BEV or REx.
I'll try to outline the pros and cons here. If you think I miss something please feel free to add your reasoning in the comments section. Here are my top six reasons for and six reasons against the range extender:
Why go for the range extender:
The added utility. Not having to plan out your mileage or look for public chargepoints if you know you'll be pushing the range on a particular day will be a welcome feature to many people. You won't have to think twice if your plans change and you need to drive more miles than you planned that day, and on days you know you'll be driving far you won't have to use the other family car, borrow a gas car or use a car sharing or rental service. With the exception of extremely long drives (hundreds of miles) that will take you up extended long mountainous routes the i3 with the REx can take you wherever you need to go without worry. Also as the car ages, the battery will lose capacity and your range will shrink. A new i3 with an 85 mile range may only be able to comfortably deliver 75 miles after 3 or 4 years. The REx means the car will always deliver the same utility regardless of how old it is and what shape your battery is in.
No range anxiety. There is some over lap with the first reason, but this really is another issue in itself. There is a difference in not using the car one day because you know the range wouldn't be enough, and miscalculating your total miles because your route had a detour, or your life had a detour that day. It happens. You can plan your day all you want but things come up and you often need to drive farther than you thought you would have to. Usually the extra range you have is enough to get you home, but there are those days where you just come up short and can't make it. The last few miles you are gripping the steering wheel a little tighter and looking down at your range gauge every minute or so. I've been driving electric for nearly 5 years now and I can honestly say these kinds of issues don't happen often, in fact they are very rare. However when they do happen, it isn't fun. I can remember walking home at 2am last summer and thinking about how great it would have been to have that little REx motorcycle engine on my ActiveE. On that night, I ran out of charge about a quarter mile from my house. What made it really interesting is I live in a very rural area of New Jersey. There are no streetlights on my street and it's really pitch dark at 2am. Add to that I saw a bear walking on my lawn a few weeks earlier so as I was walking home I couldn't help but think of the headline, "EV advocate gets mauled by bear walking home because his electric car ran out of charge." I don't know if that is range anxiety or bear anxiety, but I could have really used the REx that night. I know some would say just get an EV with a bigger battery. No matter how big the battery is there could always be occasions when you miscalculate your range or drive farther than you planned and come up short. The range extender virtually eliminates any range anxiety unless you live in an extremely remote area where there aren't charge points or many gas stations where you drive. If that's the case, perhaps an EV isn't the best choice for you right now anyway.
There isn't a lot of empirical data since modern EVs haven't been available long enough to really establish how much a pure EV will depreciate as compared to an EV with a range extender. Now that the earliest LEAF and Volt lessees are beginning to return their cars that were on three year leases, I believe in a year or so we can properly gauge if there is much of a difference. I suspect that electric cars with range extenders will fare much better in the second hand market. I know if I were looking to buy a three year old i3 I'd be much more concerned about the condition of the battery if it didn't have the REx. After three years there will be range degradation, there is no way around it as the battery ages. Will a three year old BEV i3 still have 90% of its original range? How about 85%? We simply don't have the answer yet. That uncertainty really hurts the value of the car. The potential new owner won't really know how far it can go until they buy the car and live with it for a while. However if the used i3 has the REx, then the all electric range isn't nearly as important. The buyer can still do anything they want with the car. They can drive it as far as they want to and the only negative they have is they may use a little more gas than when it was new because of the lower electric range. If it's a pure BEV they also have to worry about how many more years they have with the car until the range really impacts the cars utility - the REx removes that concern. Of course if you lease the car this isn't your problem and one of the reasons I recommend leasing if you are in the market for an EV today.
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| When will this be commonplace? |
Lack of infrastructure. If there were level 2 charging stations in every parking lot, and finding a place to plug in while you work, dine and shop was without hassle, then daily life with a ~80 mile BEV would be simple. If we also had a robust DC quick charge infrastructure then long distance travel would be easy, even if it meant stopping more frequently then you would have to for a gasoline car. However we just aren't there yet. Outside of certain areas of California and a couple other progressive areas, charging infrastructure is still in its infancy. It's going to take a while for EV charging to be ubiquitous. I do believe we'll get there, but not for a while. There will be a lot of growing pains and I believe the number of EV's sold will greatly outpace the number of public charge points installed. For most people outside of a few select areas, I fear finding available EVSE's will be very difficult for the foreseeable future.
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| My ActiveE battery was frequently drained |
Damage from frequent deep discharges. This may be a minor concern, but since the REx will turn on at about 6% state of charge, the battery won't be run down to very deep discharges. There is about 10% buffer when you drain the i3's battery completely so when the REx turns on the real state of charge is actually about 15%. The buffer is there so you don't do really deep discharges which would damage the battery. However I can't help but think if you are a high mileage driver like I am with a BEV i3 and frequently roll into your garage with the state of charge below 5% of the available capacity, the cumulative effect of doing this frequently will have negative effects on the battery. With my MINI-E and ActiveE, there were many times I drained the battery well under 5% and even drove them until they just stopped and wouldn't go any farther a few times. This isn't good for the battery, but since these were test cars that would be taken out of service after two or three years there was really no reason to pamper the battery. However if you shell out $45,000 for a new i3, you will want to take good care of your battery, as it's the most expensive component of the vehicle to replace. Frequent deep discharges can bring on early degradation which will mean less range and perhaps even cause more deep discharges and accelerate the early capacity loss of your pack.
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| My ActiveE preconditioning in the snow |
Cold weather range degradation. If you live in an area that gets cold during the year this is something you need to be very cognizant of. Even with a sophisticated thermal management system like the i3 has and the ability to precondition the battery and passenger cabin, the range of an electric vehicle is less when it's cold outside. The combination of the need to use energy to power the cabin heater, the seat heaters, the defroster, etc, plus the fact that the batteries simply cannot store and use the same amount of energy as efficiently as they do when it's warm conspire to cut into the range. Without having thoroughly tested the i3 in cold conditions, I still feel confident saying you can expect at least a 20% range reduction in temperatures below freezing, and that number could quite possible as much high as 30%. So lets say the i3 gets an EPA range rating of 85 miles per charge. I wouldn't expect the average driver will get more than 60 - 70 miles per charge when they are driving at or below freezing, and even less as the temperature drops much lower than that. It should be noted that this isn't permanent range degradation, like I was referring to above. As soon as the temperature rises back up again, so will your range, but that could mean for 3-4 months a year you have to live with an EV will less than 70 miles per charge. With the REx all this means is you may use a little gas, but you won't have to change your driving style, find secondary roads to your destination so you can drive slower or wear a hat and gloves so you don't need to use the cabin heater.
Reasons against getting the REx:
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| Do you mind if I smoke? |
It's an electric car! - You don't want really want to put gas in it do you? The whole reason for going electric is to get away from gas, right? Well there are lots of reasons for going electric while not needing to buy gas anymore is definitely one of the top ones. The way I see it, my goal is to use as little gas as possible. My EVs are mostly powered with electricity generated from my solar array which really makes them as close to true zero emission vehicles as possible. I don't feel bad if I end up burning 10 or 20 gallons of gas in a year with my REx i3, after all I used to use that much gas every four days when I commuted in my SUV. Still an electric car that burns gas can leave a foul taste in your mouth as the exhaust pipe does when the REx is running
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| This stuff shouldn't pour out of an EV! |
ICE complexity means added maintenance. One of the great aspect of electric cars is their simplicity and
extremely low maintenance. Slap an internal combustion engine as a range extender in there and you just complicate things. Now oil changes, tune-ups, filters, mufflers, etc are all part of ongoing maintenance again, just when the electric car promised to put all that in your past. The only redeeming aspect is since you'll likely only use the REx occasionally, the maintenance schedule will not be nearly as intensive as it is on a normal ICE car. Still - this is a major drawback in my opinion.
The added weight of the REx reduces the cars efficiency and performance. The i3 is the most efficient electric vehicle on the road. Everything BMW did while designing it was centered around lower weight and increasing efficiency. The REx adds 265lbs of dead weight to the car, which has to be lugged around everywhere you go. Even if you don't use the REx for a month at a time, every mile you drive you'll be carrying it with you. The efficiency will take a hit and you'll be using slightly more electricity to power the car whenever you drive it. It's kinda like going hiking and carrying 30 water bottles in your back pack every time you hike, even though you usually only need 1 or 2 of them for 95% of your hikes. Plus, the added weight robs some of the performance. The all electric i3 will go 0-60 in about 7.0 seconds, while the REx i3 will need about 7.7 seconds. Still pretty quick, but if you're driving a REx i3 and a BEV i3 pulls next to you at a streetlight, kindly decline the invitation for a race.
It takes a little away from the cool futuristic feel of the car. Driving electric is a blast. It's a different driving experience that most will tell you is actually better than driving ICE. There is also a really cool feeling that you are really driving the future. The ultra silent vibration-less cabin, the instant torque and feeling that you are almost being pulled along by a string instead of the car providing the propulsion really lets you know you are definitely not driving something from a past generation. Add to that the i3's futuristic architecture, advanced electronic features, extensive use of carbon fiber for the passenger cell, aluminum for the frame and thermoplastic for the outer skin and this is indeed a car of the future that you can drive today. Do you really think an internal combustion engine that's vibrating and belching pollutants into the air as you drive along really belongs there? Of course it doesn't.
It will complicate your conversations: I've been driving electric for nearly five years now and I still get people asking me about my cars all the time. I can't go to a car wash without someone asking me about it and often when I return to my car parked in a lot at a shopping center there is someone there looking at it and wanting to ask me about it. With a REx i3 I can no longer say, "Yeah, it's all electric and I love never buying gas!" like I do now. I see the conversation going something like this:
Them: That's an interesting car is it electric?
Me: Thanks, yes it is.
Them: Wow! Cool - so it's all electric?
Me: Well it's not all electric, but 99% of the time I drive it is all electric. It has a small gas engine that is used to recharge the batteries if I need to drive farther than the electric range will allow.
Them: Oh, so it's a hybrid. My neighbor has a Prius and loves it.
Me: (Groaning under my breath) No, it's an electric car with a range extender.
Them: So it's not like Prius then?
Me: Well it's not like the old Prius, but there is a new Prius now that is a plug in Hybrid and it's kinda like that but has a much greater electric range.
Them: So it's kinda like the plug in Hybrid Prius, but it's not a hybrid you say?
Me: Have a nice day. (Drives off mumbling)
I've driven the i3 a few times now, and the distinctive styling attracts a lot of attention. If you buy an i3 expect a lot of curious people asking you questions about it and the range extender definitely makes explaining the car more difficult.
Cost: The range extender option costs $3,850.00 in the US and that's a lot of coin. There is also the concern that in some states getting the REx option will then disqualify the car for the zero emission tax exemption. If that is the case, the range extender will end up costing them closer to $7,000 because the sales tax will add another $3,500 or so to the price. However I don't think this will be the case because I know BMW has been working very hard behind the scenes to get the i3 REx classified as a zero emission vehicle under the CARB BEVx rule. Hopefully we will get clarity on this soon because I know states like NJ, Washington and Georgia (possibly others also) all have tax exemptions and/or other state incentives for zero emission vehicles, but not plug in hybrids. Still, even if it only costs the $3,850, that is a significant additional cost.
Ultimately you have to decide what best suits your needs. I would hate to have someone buy a BEV i3 and then realize they can't live with the limited range and struggle with worrying about running out of charge. However I also don't want to give the impression that the BEV i3 wouldn't work for a lot of people. I happen to drive much more than the average person. I drive between 33,000 and 35,000 miles per year and average around 85 miles per day so for me the REx i3 makes more sense. However as I've said, I have lived the past 5 years with pure EVs and really didn't have too many instances when I wished I had a range extender. Only you know what's best for you. That reminds me of one of my favorite Dr Seuss quotes:
Another great thing about electric cars is that you can easily reduce your electric bill by $40 to $50 per month just by being more efficient, and therefore completely eliminate your transportation fuel cost! You really can't use less gasoline unless you drive less or buy a more efficient car, but you can reduce your electricity usage at home and still drive as much as you always have. Simple measures like a programmable thermostat and the use of compact florescent or LED light bulbs can make a big difference. In fact, five 100 watt light bulbs left on continuously for a year use nearly the same amount of energy as it takes to power an electric car 15,000 miles! Here's how: five 100 watt light bulbs use 500 watts per hour. In 24 hours they use 12,000 watts or 12kWh. In 365 days they use 4,380kWh’s. A typical EV that uses 30 kWh’s for every 100 miles will use 4,500 kWh’s to drive 15,000 miles. Simply by turning unnecessary lighting off at your home, you can drastically reduce or completely eliminate your annual transportation fuel cost. Try doing that with a gasser!
