The land under a wind farm doesn't have to be concreted over.  Each turbine needs a concrete pad.  The rest can be grassed over and used to graze sheep or grow crops.

Tides may be predictable, but they are also highly variable.

By highly variable I assume you mean the actual maximum sea level, which depends on the full moon (which is predictable) and winds (direction and strength) which now can be calculated ahead of time by new weather programs.

Peter Brooks 

Palm Bay Florida 

Tides vary with springs and neeps.

How you generate enough tidal energy to power an industrial civilisation is for the birds.

As for weather being predictable is ridiculous beyond 24 hours. 

The only prediction is the rich turbine owners will be getting richer off the back of the highest energy costs in the world in the uk

Hello Jon:

Now you have mentioned the other parameter TIME but you failed to mention prediction accuracy! As time is increased the predication accuracy decreases.

Peter Brooks

Tidal power generation is very variable swinging from zero to full output twice a day (approximately). To be classed as despatchable a significant back up or storage system is required.

I would prefer my life support system to be nuclear or fossil fuel powered rather than from renewables.

Well with reversable generators (generate on both ebb and flow) it is 4 times a day and at different times around the coast, and the slack tide periods are relatively short.

But I agree, nuclear is best for standby.

Hello Roger:

Now you have added another topic to this thread by your reference to "my life support system".

From a personal perspective using electrical "mains" power for a persons "life support system" is not acceptable.

During storms and disasters the "mains' electrical power can disappear for hours, days and weeks.

If I had a LVAD (heart pump) installed in my body I would have to put in a external backup electrical generator that uses LP gas or regular gasoline. 

Peter Brooks,

Palm Bay Florida 

To go slightly aside again on this topic. Could tidal generation be run synchronously? Normal hydroelectric power can but could a direct synchronous generator operate with what is a continuously varying (sinusoidal) flow regime and offer grid stability?

Inverter coupled systems like wind and solar do nothing to help the grid stability and battery storage systems even with ‘advanced grid forming’ inverters don’t seem to be enough.

This article notes the blackout problems at Australia’s Broken Hill when the powerline coupling to the Australian grid was broken in a storm. Even though there was apparently ample wind, solar and battery power available the micro grid would not run without connection to a real grid.

https://judithcurry.com/2024/12/05/wind-and-solar-cant-support-the-grid/

This may have been a technology or management problem, there is another view here:

https://reneweconomy.com.au/energy-regulator-joins-probe-into-reasons-for-lengthy-blackouts-in-storm-hit-broken-hill/

Or maybe it was the wrong sort of battery:

https://www.agl.com.au/about-agl/operations/broken-hill-battery-energy-storage-system?zcf97o=vlx3ap

Roger:-

Regarding power systems in Australia- I don't know very much except 1) Tesla Storage Battery systems have been installed in Western Australia and 2) There are big plans to connect a Northern Australia's solar farm(s) to Singapore, using underseas cables made in a new cable manufacturing facility in Tasmania.

As a result of climate change many older Hydro systems are running out of water here in the US,

Peter Brooks

Palm Bay Florida 

Interesting read - while it looks like there were a few technical challenges that really should have been sorted better, it reads as if management/maintenance failings alone were quite enough to cause the disaster:

one of the diesel generators that were supposed to provide back-up power was out of action, and the other was incapable of meeting community and business demand.

the Broken Hill battery had been deliberately disabled from providing this “islanding” service, under orders from transmission company Transgrid which had chosen instead to deliver those services through a new advanced compressed air storage project.  ... But that facility has not even begun construction, and won’t be built until 2027.

with a nice summary from the author:

But, like many of the challenges facing the green energy transition, this is not really about the technology, but whether the regulatory processes, the rules and grid management protocols are fit for purpose.

  - Andy.

Interesting read - while it looks like there were a few technical challenges that really should have been sorted better, it reads as if management/maintenance failings alone were quite enough to cause the disaster:

one of the diesel generators that were supposed to provide back-up power was out of action, and the other was incapable of meeting community and business demand.

the Broken Hill battery had been deliberately disabled from providing this “islanding” service, under orders from transmission company Transgrid which had chosen instead to deliver those services through a new advanced compressed air storage project.  ... But that facility has not even begun construction, and won’t be built until 2027.

with a nice summary from the author:

But, like many of the challenges facing the green energy transition, this is not really about the technology, but whether the regulatory processes, the rules and grid management protocols are fit for purpose.

  - Andy.