Brazil, a continental country, has more than 80% of its energy from renewables
Largest chunk left is transport which can mostly be electrified now. Industrial and home heat too. There are hard to electrify sections in both but overall it's fairly obvious what to do next.
And the easy parts eliminate 3 or 4 units of primary energy for every one they replace, so even 40% primary energy is way over 50% toward the finish line of electrifying all the useful stuff.
I think it's also an interesting question as to whether countries that use a lot of electricity have lower per kWh prices because they spread the fixed costs further.
But would it be easy or obvious what to do next? Absolutely not. Everything is simple if you have pockets full of money, live in temperate climates and do not rely on energy intensive (and hard to electrify) industries like the Nordic countries.
For example, about 25 per cent of the total energy consumption in Finland is used to heat buildings. Wood burning is about half of the total heating in distric heating systems which account about half of the total heating for buildings. Also heat-storing fireplaces are still a small but a crucial part of the total picture. A lot of extra energy capacity is needed just make sure you stay alive during the coldest months even if some of the systems fail.
Nordic countries have cheap electricity mostly for two reasons: very stable interconnected electric grid and lots of different renewable energy sources. Arguably, hydropower is the most important because it can stabilize the intermittent wind power which in many places we have more than enough already. Nuclear energy is also a major part of electricity production in Sweden and Finland.
And yet our electric grid or electricity production capacity is far from ready to handle even the more realistic dreams of "full electrification" we are told in the media. It will take many years just to get the grid ready.
And what happens if the stablest renewable, hydropower, fails? We might find it out this year as hydropower reserves in Norway are at the lowest level in 20 years. Hydro generates about 90% of Norway's total electricity.
What do you call long distance? And why do you think it can't be electrified now. Both Volvo and Scania have electric tractor units.
Scania has trucks with over 500 km range at 42 t GTW. In Europe you can't drive more than 360 km in one go. See https://www.scania.com/group/en/home/products-and-services/t...
Most homes are hundreds or thousands of miles from a datacenter.
The trick of course is that if you electrify heating and transportation they'll need much less energy. Your average car with an ICE has an efficiency of 20-40%, electric cars have 60-80%. Heating your house with gas has an efficiency of around 100%, heat pumps have 300%-500%.
To hit 90% the boiler needs to be designed to condense water vapour out of the exhaust gases, this way we'll get back the energy needed to turn water into a vapour which is a large portion of the energy embodied by the exhaust gas. And to do that the vapour needs to pass a low temperature fluid, so we use the input fluid we were about to heat with the boiler anyway, we want this fluid to be cooler than about 55°C but that means if we're using the boiler to heat a home with radiators, rather than to make fresh hot water for cleaning etc. we need our return temperature from the radiators to be less than 55°C which means we need our flow temperature to be lower (than the typical 70-80°C programmed by builders, not lower than 55°©) or else the radiators can't possibly radiate enough heat to hit that number, which means we're actually doing much of the same heating efficiency work we'd have to do to use heat pumps anyway...