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The Green-Energy Road To A Blackout Nation

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California leads the way to electricity blackouts, closely followed by South Australia.

They both created this problem by taxing, banning, delaying, or demolishing reliable coal, nuclear, gas, or hydro-generators while subsidizing and promoting unreliable electricity from the sickly green twins — solar and wind.

All are supposed to solve a global warming crisis that exists only in academic computer models.

Energy policy should be driven by proven reliability, efficiency, and cost, not by green politics.

Wind and solar will always be prone to blackouts for three reasons.

First, they are intermittent, producing zero power when winds drops or sunlight fails.

Second, green energy is dilute, so the collection area must be huge.  Both solar panels and wind turbines are old technologies and now close to collecting the maximum energy from a given land area of wind and sun, so limited technology gains are possible.

Wind turbines generate nothing from gentle breezes and must shut down in gales.  To collect more energy, the green twins must collect from greater areas using a widespread scatter of panels and towers connected by a fragile network of roads and transmission lines.

This flimsy system is far more susceptible to damage from cyclones, hail, and the like than a big, well built, centrally located, well maintained traditional power station with strong walls, a roof, and lightning protection.

Green energy also requires far more investment in transmission lines and interconnectors, and the energy transmission losses are greater.

Third, green energy is like a virus in a distribution network.

When the sun shines, solar energy floods the network, causing energy prices to plummet. Coal and gas plants are forced to operate at a cash loss or shut down.

Erratic winds make this problem worse as they are less predictable and changes can be quicker.

But when all green energy fails suddenly, like in an evening peak demand period after a still cold sunset, coal cannot ramp up quickly unless it has been kept on standby with boilers hot, waiting for an opportunity to generate some positive cash flow.

Gas and hydro can fire up swiftly, but who wants to own, build, and maintain an expensive fair-dinkum power station that operates intermittently?

Currently, hydro, or stop-start gas turbines on standby, or coal generators fired up but not generating are keeping Australian lights on during green-energy blackouts.  But no one will build new reliable generators to operate part-time.

Soon we will have daytime where there are heaps of electricity, producing no profit for any generator, and nighttime when electricity prices will soar and blackouts will threaten.

Authorities have their solution: rationing.  They will use a blackout crisis to grab the power to dictate rolling blackouts of whole suburbs, areas, or factories or selective consumer blackouts using smart meters.

Naturally, Green “engineers” also have a solution — “More Big Batteries.”

There are many contestants in the battery growth “industry,” including pumped hydro, lithium batteries, compressed air, big flywheels, hydrogen storage, capacitors, and molten salt.

They all need to be able to cope with a few days without wind-solar, which makes them huge and expensive. And all are net consumers of energy as they go through the charge-discharge cycle.

Half-ton Li/Co/Pb batteries are huge consumers of energy — energy for exploring, mining, and refining metals and for concrete, battery manufacture, transport, and construction; energy to charge them and absorb the inevitable losses in the charge-discharge cycle; energy to build battery warehouses; and finally energy to recycle or bury worn out batteries (which wear out far quicker than coal, gas, hydro, or nuclear power stations).

Few people consider the extra generating capacity needed to maintain charged batteries. Solar energy at best delivers power for about eight hours per day when there is no cloud, smoke, or dust in the air.

So a solar array needs batteries with a capacity of twice name-plate capacity just to cover the hours of darkness, every day. These batteries then need extra generating capacity to charge them during daylight hours.

But a solar system also needs to be able to cope with up to seven days of cloudy weather. This needs seven times more batteries plus the generating capacity to charge them.

The Big Battery in South Australia has a capacity of 150 MW and cost $160m. East Coast demand these days is about 22,500 MW which would require 150 SA batteries and adding a 10% factor of safety = 165 batteries. The cost could be 165 X $160m = $26.4bn.

No matter whether the battery is stored hydrogen or pumped hydro, the cost to stabilize 100% green energy would be prohibitively expensive.

Before we leap over this green cliff, those who claim otherwise must be obliged to demonstrate a working pilot plant without coal, gas, or diesel.

Wind power suffers the same problems but is far less predictable.  Wind droughts are a common feature.  At times wind turbines drain electricity from the grid.

To maintain grid stability, the generators must charge batteries which can then supply a steady stream of electricity to the grid. This requires many more transmission lines and battery connections.

At this point the math/costs of zero-emissions with 100% solar/wind become preposterous. And the ecological disruption becomes enormous.

When Danish windmills stand silent, they import hydropower from Scandinavia. When German solar panels are covered in snow, they import nuclear electricity from France. And California can draw power from Canada.

But Australia is an island. When the grid fails, Tasmanian hydro or New Zealand geothermal are the closest reliable-energy neighbors.

The looming COVID Depression has no room for more green energy silliness. We cannot afford to mollycoddle an aging failing technology. A hard, dangerous new world is coming. To survive we will need cheap reliable energy — coal, gas, nuclear or hydro.

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