What are the most efficient electric cars?



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Batteries
 hyundai-ioniq-electric

Published on [30 June 2018 |
by Andy Miles

June 30, 2018 by Andy Miles


The Question

This was a question about the effectiveness of electric vehicles that we posed me recently, and apart from thinking that the Hyundai Ioniq has to be quite efficient because it gets about 120 miles on its 28kWh battery, I could not answer. It sometimes happens that only when someone asks a fairly obvious question that we think – "heck, I never really thought about it". In my case, I have the excuse that if I look at an EV to buy, I would be more interested in the range and price, rather than the efficiency, but once the question is asked, I felt annoyed by her and I had to find the answer.

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Image credit – "Hyundai"

The answer

He demanded a lot of technical research on a wide range of cars coming up with an answer. The basic idea is that an EV is there to convert electrical energy into kinetic energy, or less technically, electricity in for miles of travel out . What we would need to establish for each car is the size of the battery (which is roughly equivalent to the amount of electricity needed to charge it) and the real reach of the real world reached.

The size of the battery is not a perfect indicator because a battery can not be drained completely, so the full capacity can not be used. The indicated capacity is not the full capacity or the indicated capacity is not fully available. In addition, some of the electrical energy is lost in the internal charging system of the car, so the power input may be slightly higher than the battery capacity. However, it is not an unreasonable assumption that all these variations will be pretty much the same for all electric vehicles, so the indicated battery capacity can be considered a reasonable measure.

The scope is more difficult to define. In a recent test drive with a 2018 Nissan Leaf, the range claimed by the Nissan dealer was 150 miles, the best beach reached was 202 miles, and the overall range I've reached on a trip 175 miles was 185 miles per charge. See 175 miles in the 2018 Nissan LEAF of "150 miles" (#CleanTechnica Review) for more information on this disc.

Any car would give a similar range of range, depending on how they are driven. The most accurate test would be to measure the precise current consumption over a measured distance, but this would require a research program involving driving and measuring all the different cars, which would be far beyond my resources. Even when doing this, the efficiency varies depending on how the car is driven: a hard and fast driving car in rally style will be far less efficient than the same car driven in a quiet driver style. Cars should all be driven in the same way. See how EV range is affected by fast acceleration

Data

Not being able to do such a research project, I have to rely on data that I can find that already exists. The battery capacity and an average range for each of a car list is the best I can find. The average range, divided by the battery capacity, to get miles per kWh, seems the easiest way to calculate the efficiency. The averages I obtained are derived from the range achieved in urban driving and highway driving, both in summer and in winter, so that four different range values ​​for each car are used to obtain the average . Some cars, and possibly most cars, have different driving modes – for example, Ioniq has the "Sport" mode and the Nissan Leaf has modes B and D, which can be changed with the " eco "to save battery. The level of efficiency would be different in the different modes, but the figures I've used seem to be for the mode and the standard version, and so are all comparable. On this basis, after examining a number of different motor coaches, they appear as follows in the table below:

Motorway cars in order of miles per kWh

Make

Model

0 to Average length (km)

Medium chain (km)

Battery kWh

Km per kWh

Hyundai

Ioniq

10.8s

125

201 17

28

4.46

Citroen

C-Zero

15.9s

60

96.56

15

4.00 [19659031] Mitsubishi

i-MiEV

15.9s

60

96.56

15

4.00

Peugeot

iOn

15.9s

] 60

96.56

15

4.00

Chevrolet

EV bolt

6.5s

238

383.02

60

3.97

Opel

Ampera-e

6.5s

238 [19659029] 383 1965

60

3.97

Nissan

Sheet (2018)

8.4s

150 [19659029] 241.40

38

3.95

Tesla

Model 3 Standard

5.9s

205

329.91

52

3.94

Renault

Zoe

13.5s

145

233.35

37

3.92

Volkswagen

e-Golf

9.6s

125

201.17

32 [19659031] 3.91

Hyundai

Kona Electric

9.3s

155

249.45

40

3.88

BMW

i3

7.3s

105 [19659029] 168.98

27 ,

3,86

Volkswagen

ID (2019)

8.0s

230

370.15

60

3.83

Hyundai [19659025] Kona Electric (64)

7.6s

240

386.24 [19659030] 64

3.75

Kia

Niro EV Midrange

9.5s

145

233.35

39.2

3.70

Kia

Soul EV [19659027] 11.2s

110

177,03

30

3,67

Fiat

500th

8.5s

84

135.18

24

3.50 [19659032] Volkswagen

e-Up!

12.4s

65

104.61

18.7

3.48

Ford

Electrical Focus

9.9s

115 [19659029] 185.07

34 [19659030] 3.38

Tesla

Model S 75D

4.4s

240

386.24

72.5

3.31

Smart

Smart EQ ForFour

12.5s

55

88.51

16.7

3.29

Mercedes

EQC (2019)

5.0s

] 215 [19659029] 346.01

70

3.07

Jaguar

i-PACE

4.8s

250

402.34

85

2.94

Tesla [19659025] Manikin X 75D

5.2s

205

329.91

72.5

2.83

Source data – https://ev-database.uk/ (Where they are included, if not various sources)

In conclusion

I was right about the Hyundai Ioniq, which is impressive for a newcomer. I was also surprised that my own car, the Peugeot iOn, behaved so well. It's indicated in most places to have a range of 90 miles, which is total fantasy, and I know that 60 miles is pretty much right – although I'm getting closer to 70 miles on long trips. I'm sure the same kind of thing can be said for most cars, but I've used the most realistic averages I could.

Some of the cars are simply different versions of the same car, like the Citreon C -Zero and Mitsubishi i-MiEV, which are the same as mine, and the Opel Ampera-e which is the European version of the Chevrolet Bolt. The bolt does very well for efficiency, range, and performance.

I also notice the time of 8.4 seconds 0-60 mph for the Nissan Leaf, which I may well believe, having driven for the road test. The Teslas do well on the range and performance, but are not particularly effective, with the X model at the bottom of the stack. The Tesla Model 3 comes out in the company of the Nissan Leaf and Renault Zoe, and everything goes very well with efficiency just below the magic of 4 miles per kWh. At nearly 4.5 miles per kWh, the Ioniq is outstanding


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Tags: EV Efficiency, EV Range, Miles per kWh




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