Kilometer per liter to Liters per 100 km
km/L
L/100km
Conversion History
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Quick Reference Table (Kilometer per liter to Liters per 100 km)
| Kilometer per liter (km/L) | Liters per 100 km (L/100km) |
|---|---|
| 8 | 12.5 |
| 10 | 10 |
| 12 | 8.333333333333333333 |
| 15 | 6.666666666666666667 |
| 17 | 5.882352941176470588 |
| 20 | 5 |
| 25 | 4 |
About Kilometer per liter (km/L)
Kilometers per liter (km/L) is a fuel efficiency unit — higher is better — expressing how far a vehicle travels on each liter of fuel. It is the preferred fuel economy metric in Japan, India, Indonesia, and parts of Latin America. A typical economy car achieves 12–17 km/L; a petrol hybrid may exceed 20 km/L. The unit is the direct reciprocal of L/km and converts to L/100km by dividing 100 by the km/L value. Japanese fuel economy certificates (JC08 and WLTC test cycles) publish efficiency in km/L, making it the reference unit for vehicle purchasing decisions in Japan.
A Honda Fit achieves approximately 17 km/L on the Japanese WLTC cycle. A Toyota Prius hybrid reaches around 22 km/L under the same conditions.
About Liters per 100 km (L/100km)
Liters per 100 kilometers (L/100km) is the standard fuel consumption unit across the European Union, Australia, Canada, China, and most of the metric world. It expresses how many liters of fuel a vehicle burns to travel 100 km — a lower number indicates greater efficiency. Modern petrol passenger cars range from about 4 L/100km for efficient small cars to 15 L/100km or more for large SUVs and trucks. Because the unit measures consumption rather than efficiency, its relationship with km/L and mpg is non-linear: a change from 15 to 10 L/100km saves more fuel per kilometer than a change from 6 to 5 L/100km.
A Toyota Prius averages about 4.5 L/100km under EU testing. A full-size petrol SUV typically consumes 10–14 L/100km on the combined WLTP cycle.
Kilometer per liter – Frequently Asked Questions
Why does India use km/L instead of L/100km?
India adopted km/L because it intuitively answers "how far can I go on one liter?" — a question that resonates strongly in a price-sensitive market where drivers often buy fuel in specific liter amounts rather than filling up. The Bureau of Energy Efficiency (BEE) publishes official star ratings in km/L.
How does India's fuel subsidy system interact with km/L ratings on car stickers?
India historically subsidised petrol and diesel prices, keeping pump costs artificially low and weakening the incentive to buy fuel-efficient cars. As subsidies have been rolled back since 2014, the BEE star rating in km/L has become a genuine purchasing factor. A one-star jump (roughly 3–4 km/L better) now translates to noticeable monthly savings, pushing buyers toward smaller engines, hybrids, and CNG vehicles.
What km/L does a 125cc motorcycle get in city traffic?
A typical 125cc commuter motorcycle in India or Southeast Asia achieves 40–60 km/L in city riding, far exceeding any passenger car. The Honda CB Shine, one of India's best-sellers, claims about 55 km/L — a major reason two-wheelers dominate Asian commuting.
Why do Japanese cars seem to have much better km/L than European cars?
Part of it is real — Japanese kei cars are lighter and smaller. But the old JC08 test cycle was also more lenient than European WLTP, inflating numbers by 10–20%. Japan has since adopted WLTC testing, narrowing the gap and giving more realistic km/L figures.
Is 20 km/L realistic for a non-hybrid petrol car?
It is achievable but only for small, lightweight cars under ideal highway conditions. In real-world mixed driving, most non-hybrid petrol cars top out around 15–17 km/L. Hitting 20 km/L consistently without hybrid assistance requires something like a sub-1000 kg car with a 1.0L engine.
Liters per 100 km – Frequently Asked Questions
Does fuel consumption increase linearly with speed, or is there a sweet spot?
There is a sweet spot, typically between 50 and 80 km/h for most cars. Below that, the engine runs inefficiently at low load. Above it, aerodynamic drag — which scales with the square of speed — dominates. At 120 km/h a car may use 7 L/100km; at 160 km/h the same car could burn 11+ L/100km. That is why the jump from 100 to 130 km/h costs far more fuel than from 70 to 100.
What L/100km should I expect in real-world driving vs the WLTP sticker?
Most drivers see 10–25% higher consumption than the WLTP rating. A car rated at 6 L/100km will likely average 6.6–7.5 L/100km in mixed real-world conditions. Cold weather, city driving, roof boxes, and aggressive acceleration all push the number up.
How do I convert L/100km to US mpg in my head?
Divide 235 by the L/100km value. So 8 L/100km is roughly 235 ÷ 8 ≈ 29 mpg. For UK mpg, divide 282 instead. This mental shortcut is accurate enough for casual comparisons when shopping for cars across markets.
Why did Europe pick 100 km as the reference distance?
One hundred kilometers is a psychologically round number that keeps consumption figures in a convenient 3–20 range for most passenger cars. Using L/km would give tiny decimals (0.07), and L/1000km would give unwieldy large ones (70). The 100 km base hits the sweet spot for human readability.
What L/100km does a diesel car achieve compared to petrol?
Diesel engines are typically 15–25% more fuel-efficient than equivalent petrol engines. A petrol car rated at 7 L/100km might have a diesel counterpart at 5.5–6 L/100km. However, diesel fuel contains about 13% more energy per liter, so the CO₂ gap is smaller than the L/100km numbers suggest.