look up Brightsource / ivanpaugh, and at NREL in CSP work.
The key recent enabler / advance is the formulation of lower melting point Molten Nitrate Salts still capable of high temperature operation.
( high temperature capable molten salts transport larger recoverable / operating heat capacity than steam might do otherwise at lower energy density than MS )
The motivation for lower melting point Molten salt formulations is to ease cold start startup - loop heating required to unfreeze the working "fluid" for recirculation through the primary heat transfer pumping loops.
The key point of MS CSP is that it is truly BASELOAD capable solar power, ie closest to utility grade, with predictable reliable power production without ridiculously costly electrical storage of any kind. Add a MS tank, and there you go BASELOAD capable.
The ease of set up is getting better. Westinghouse Solar showed this week a panel with an integrated micro inverter. Just plug the panels in (you can get them at some big box hardware stories) and go. Others will follow.
Well I am no expert on solar, just a casual user but it seems that in some areas solar makes a lot of sense. I am not yet ready to jump in full force with solar just yet. I went to a cabin on a mountaintop the past weekend that had 4 solar panels, batteries and an inverter. The system was used to power high efficiency lighting for the cabin and it worked very well. The ease of use and simple setup was refreshing, the cost was not an issue as the solar panels were donated. This was not a full house but a 200 sq ft primitive cabin at elevation with no other source of electricity (nor TV/Cable/internet/etc..). It was nice having real working lights with no need to light a burning fuel! All that said, if solar is going to go big time, there will need to be a lowering in cost for the generation and better means for storing power for night / cloudy times.
Clarke is chairman of the board of investment firm Rodman & Renshaw, and part of his portfolio is to study alternative renewable energy: http://phx.corporate-ir.net/phoenix.zhtml?c=122722&p=irol-govboard. He makes good points.
I read some comparisons several years ago. One can probably find something more recent with a bit of googling. With PV costs crashing, I suspect that thermal solar is falling quite a bit behind. It does have storage ability, but it has the drawback of requiring as much water as any steam based power generation, which could be significant issue in the places most ideal for solar.
One of the first solar plants to use molten salt was the Solar One in CA which was upgraded in mid 90's with molten salt.
I believe the one with the most storage might be in Spain, which can provide 24/7 power in the summer...
Our entire energy industry is in need of overall (some of it quite literally), if it is to meet the needs of the next century. That will require massive investment to repair/replace/update and to develop the new technologies required. Solar is one part of the equation and, hopefully, the investment and necessary legal framework will be made.
@rick.merritt: Mirrors focus sunlight on a tower with a black absorber. This heats a salt mixture to the melting point, which goes into a large storage tank. The molten salt then heats water to run a standard steam turbine/generator. The main purpose of the salt is to store some of the thermal energy to use when the sun is not shining.
The reason to use salt is it's liquid at atmospheric pressure, so the storage tanks don't have to be pressurized.
Massive investment is immediately needed in phtovoltaic cell research and optimum energy capture and storage mechnism. At the present we are not in a position to supply a large load just with solar enegery at affordable rates. So instead the focus should be on more research and giving subsidies for hybrid power homes, that which use both locally generated solar power apart from the grid. These moves willl gradually reduce the total demand on the grid and in time we would also have more viable solar cell technology for massive deployment.
What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Are the design challenges the same as with embedded systems, but with a little developer- and IT-skills added in? What do engineers need to know? Rick Merritt talks with two experts about the tools and best options for designing IoT devices in 2016. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.