The renewable energy changes and policy

DIY-HP-LED

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cannabineer

Ursus marijanus
Thanks, but the abstract did not say how/why the footprint is bigger. What are the big carbon emitters in such gardens?
 

DIY-HP-LED

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The cutting edge technology of Europe's biggest greenhouse | DW News

Europe's biggest greenhouse is the size of 80 soccer fields. A technical organism, but does it also make ecological sense? Plants are illuminated with LEDs, heated with waste wood, and irrigated with rainwater. Everything is coordinated.
 

DIY-HP-LED

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These could work with solar power and in a few years with cheap batteries they would be energy free to run. They would be useful in some places to farm produce when combined with that solar distillation idea to supply water and this wouldn't use much. Uses LEDs and hydroponics and when solar provides the energy it makes the energy free or lowers the cost a lot and isolated from the outside climate. Automation is another advantage, though farms use automation too. In Canada it would make year-round local produce if powered by solar and wind with batteries in an energy efficient building. Free or low-cost energy and automation would be important to make it profitable.


Vertical Farming the Plenty Way

From its start as a student project at the University of Wyoming, Nate Storey's vertical farming enterprise has grown quickly to become a national leader in the field -- and some big-money backers are betting on it.
 

DIY-HP-LED

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Even so, what difference makes those urban gardens so carbony?
They might be including greenhouses too as to how they arrived at their conclusions I didn't look into the details as I thought it was interesting but relatively unimportant. I'm not sure if I agree with it and I'm sure a lot depends on how the gardening is done, the methods and who does it.
 

DIY-HP-LED

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THIS Is Why The Wave of Chinese EVs Is Unstoppable!

EV sales are going wild in Australia - in 2023 sales doubled and they continue to climb! But the most popular electric vehicle brands include very few of the legacy marques. In fact, just behind Tesla Model Y and Model 3, the Chinese owned electric vehicle brands are gaining significant ground with brands like BYD and MG taking the market by storm. In this episode we ask why and explore how Chinese EVs have captured so much attention and new registrations, why the Australian car market often gets overlooked by global car makers, what else is coming and could Australia ever see the day where it takes up EV manufacturing?
 

DIY-HP-LED

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If recent reports about accelerated global warming are true, then we are headed for trouble sooner rather than later. Expect things like drought in tropical areas and more water stress in areas that are arid now.

Thinking about how that new MIT solar distillation method might be deployed on a smaller scale in shipping container size kits as complete systems once assembled. They would be actively driven systems with pumps fans and heat pump condensers all powered by a dozen solar panels with little storage required. The interior dimensions of a standard 40ft shipping container in metric are: L=12M x W=2.33M x H=2.35H and if solar the distillation collectors were 2M x 10M (20sqM) and 10cm thick, then a stack of 12 of them would be 1.2 meters high, say they were thicker and the stack was 2 meters high. That still leaves 2 meters on one end for pumps, blowers and heat pump while using the empty container as a condenser (with insulation) and space on the top and sides for supporting structural parts and hoses to be stored.

The point of all this is one might have a 4M x 30M collection area solar distillation plant supported in the center by the shipping container condensing unit that contains everything required to condense the water the panels generate. The panels are supported by the structure once assembled that extends on either end of the container and has a total collecting area of 120 square meters. Let's say the PV powered actively driven system can produce a steady 15 liters of water per meter per hour and with 120 x15=1440 liters of water an hour, lets round it off to 1500 liters of fresh water per hour. Further let's say it can do that for just 8 hours on average a day while the sun shines 8 X 1500= 12,000 liters of water a day.

Can one manufacture such a shipping container sized system economically? How much would water cost over a year or 10 with such a system? They can be mass produced in a factory in China and everything is in a shipping container along with the instructions for assembly and operation. Heat pumps are pretty cheap and one with the hot end in the incoming seawater would be very efficient, solar panels and shipping containers are cheap too. The panels are just a black solar heat collectors with sea water sandwiched between the thermal collector and a PTFE membrane that is not too expensive either and a space below to collect the water vapor coming through the membrane so blowers can remove it to the condenser unit shaded under the collector panels mounted on an angle to a steel frame. Maybe land can be graded to the right slope and the panels simply placed on the ground too.

We will see, if the idea works out for businesses, then this would be one logical route to follow and 12,000 liters of water a day can keep a lot of people going and when they are done with it, it can be used to grow things too. It's over 42 million liters a year (12000 x 365), so the cost per liter should be low and the distillation container unit might be sold for $30 or $40,000, maybe less. Seems affordable even at $100,000 and can be made modular. It might cost even less if the shipping container were returned after unloading. If you think about it a module that could condense that much water using solar powered PV with a heat pump using cold seawater and containing all the other blowers and pumps required could be pretty compact a cubic meter or so and could sit under solar the collector array and be shaded by it.
 
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DIY-HP-LED

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I posted about this technology before, and this is another article on it. It is one of thousands of iterate improvements and emerging new technologies that add up. This might be useful for solar panels and even that new solar distillation process to boost efficiency, even to armor wind turbine blades and increase their lifetimes, reducing maintenance costs, it can all add up.

 

DIY-HP-LED

Well-Known Member
According to an industry expert I posted here we are years away from solid state batteries. At least according to a gray eminence in the industry who has been conditioned by decades of past experience, when he started out you probably could count the serious researchers on one or two hands. I think some younger guys have different ideas and might be doing things he knows nothing about. The guy probably never worked directly with the tools available today, AI and such and was managing projects for years.

Production Hell is a big thing with battery tech and it is hard to get it just right and involves ever smaller scales down to nano level, theory is one thing, practice another.

Jan 28, 2024


Solid State Batteries - FINALLY powering electric vehicles in 2024!

"Solid State Batteries are nearly here!" How many times have you heard that phrase in the last 5 years or so?? Myriad developers have tried and failed, but some have persevered, and one or two have succeeded AND got investment AND got production under way. So is 2024 finally, FINALLY the year??
 

DIY-HP-LED

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DIY-HP-LED

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A record-breaking volume of renewable energy has driven the price of electricity generation down 24 per cent, cutting the use of more expensive coal power and raising the likelihood of significant cuts at the next round of price-setting for household energy bills on July 1.

The steep drop in wholesale power costs – a key component of household bills – is welcome news for the Albanese government, which has pledged to more than double the share of renewables in the grid to 82 per cent by 2030 and to cut $275 from household bills by 2025.
 

DIY-HP-LED

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This will cut into the coal, oil, and NG markets a lot over the next 5 to 10 years and some sunnier countries will save a lot of money, all that is required is a few hours of nighttime and morning battery storage and there is also wind power in most places that works at night. That's for electricity alone, with EVs their fuel imports will be cut even further. Over the next 5 or 10 years, the writing is clearly on the wall and one can see why many countries are eager to adopt the technology, it makes economic sense and is in their national interests offering much more energy security. Buying a new 700-watt solar panel that can last over 20 years is more secure and efficient than buying a steady stream of fossil fuels that are gone in a day. By the time they have to replace the panels in 20 years it will be cheaper still, if they still even use solar in 20 years.


Australia's electricity prices fall as renewables grow
 
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