The Insanity of Base Load Wind Power
I have talked a lot about how wind power has almost no effect on fossil fuel use because the unpredictability of wind requires a lot of fossil-fueled plants to keep burning fuel on hot standby in case the wind dies. Matt Ridley comes at wind from a different angle, discussing what it would take for wind to actually have any meaningful impact on world electricity production.
Even put together, wind and photovoltaic solar are supplying less than 1 per cent of global energy demand. From the International Energy Agency’s 2016 Key Renewables Trends, we can see that wind provided 0.46 per cent of global energy consumption in 2014, and solar and tide combined provided 0.35 per cent. Remember this is total energy, not just electricity, which is less than a fifth of all final energy, the rest being the solid, gaseous, and liquid fuels that do the heavy lifting for heat, transport and industry....
Meanwhile, world energy demand has been growing at about 2 per cent a year for nearly 40 years. Between 2013 and 2014, again using International Energy Agency data, it grew by just under 2,000 terawatt-hours.
If wind turbines were to supply all of that growth but no more, how many would need to be built each year? The answer is nearly 350,000, since a two-megawatt turbine can produce about 0.005 terawatt-hours per annum. That’s one-and-a-half times as many as have been built in the world since governments started pouring consumer funds into this so-called industry in the early 2000s.
At a density of, very roughly, 50 acres per megawatt, typical for wind farms, that many turbines would require a land area greater than the British Isles, including Ireland. Every year. If we kept this up for 50 years, we would have covered every square mile of a land area the size of Russia with wind farms. Remember, this would be just to fulfil the new demand for energy, not to displace the vast existing supply of energy from fossil fuels, which currently supply 80 per cent of global energy needs.
How do renewables advocates trumpet the high renewables numbers they often report? By lumping in other things and hoping the reader is tricked into thinking the total is wind and solar.
Their trick is to hide behind the statement that close to 14 per cent of the world’s energy is renewable, with the implication that this is wind and solar. In fact the vast majority — three quarters — is biomass (mainly wood), and a very large part of that is ‘traditional biomass’; sticks and logs and dung burned by the poor in their homes to cook with. Those people need that energy, but they pay a big price in health problems caused by smoke inhalation.
People who talk about sustainability often miss the single best metric we have of the net scarcity of resources that goes into any product: price. I am always amazed when people point at a much much higher price version of some product and claim that it is more sustainable. How can this possibly be? Assuming the profit margins are relatively similar, the higher priced product has to be using more and scarcer resources. How is that more sustainable (I will perhaps grant the exception that certain emissions are not properly priced into some products).
To this end, wind power is much more expensive than, say, power from modern natural gas generation plants, even if one factors in a $30 a ton or so cost of CO2 emissions. This has to make us suspicious that maybe it is not really more "sustainable".
Wind turbines, apart from the fibreglass blades, are made mostly of steel, with concrete bases. They need about 200 times as much material per unit of capacity as a modern combined cycle gas turbine. Steel is made with coal, not just to provide the heat for smelting ore, but to supply the carbon in the alloy. Cement is also often made using coal. The machinery of ‘clean’ renewables is the output of the fossil fuel economy, and largely the coal economy.