Fuck that title. No such thing as too many solar panels. The only thing that is bad is how the energy is used or if it's wasted. Free energy should mean algae production which would mean carbon negativity. Negative energy price should mean negative carbon emissions, get on it.
You are right, this is BS.
I recently researched this and Germany's grid is quite "smart" (the oldest technologies involved, such as DECABIT or VERSACOM over PLC, very much predate the term "smart grid" but whatever) and power plants and households are connected for production and load control. Power plants are required to participate but households can use a load management system for water tank heating (the basic premise is that specific frequency impulses are sent over the power grid for primitive (originally relay-based!) logic in DECABIT meters to switch depending on the assigned device group, and meters count in lower-price mode while the load is activated for a guaranteed number of hours each day; you can manually override the switch for expensive on-demand water heating) and/or HVAC (here, a smart thermostat is usually used that gets real-time energy prices and decides based on its temperature range settings if it saves money to run heating/cooling).
People in Texas apparently hate this (muh freedom), and look how reliable their grid is!
Anyway, solar, unlike coal or nuclear, is absolutely capable of going off-grid if necessary. There is an MPPT system in their inverters that usually works to operate the panels at the optimal voltage & current so that it can suck the most power out of them but it can be overridden to work at below 100% efficiency, or even 0%. This will cause the panels to run with no current draw and get about 20% hotter but they are designed to withstand this. Similarly, wind turbines can be braked, water can be passed outside turbine shafts and so can pressurized steam if you really need to cut production quickly. Still, this is an emergency condition, it is preferred to use pumped hydro (responds in 1 minute, limited capacity) or batteries (respond in seconds, very limited capacity) or lower coal/gas-based production (responds in 3-20 minutes for as long as you wish) or load-side management to regulate the grid, as it wastes no power.
The system is very complex and robust, the frequency (the variable most dependent on production/load balance) only dips below 49.8 Hz about once per a few years (the emergency value that was reached in February 2021 in Texas and can only be sustained for minutes before total blackout is -1% from nominal (49.5 or 59.4, respectively) and has never been touched in Europe's modern history).
(You'd think it would be voltage what falls in case of too little power but it can be readjusted quite easily with switched transformer taps and, oddly enough, reactive power management (connecting a few capacitor/inductor banks to mains) when necessary, however frequency control is the difficult part.)
The grid needs the supply and demand to be balanced for the power to be stable. Otherwise you get fluctuations in voltage and frequency which are both bad for anything connected to the grid.
There can absolutely be an oversupply of energy. We need to either find ways to store that surplus energy, or use it for something positive like desalination or carbon capture.
There's been more solar and battery storage capacity installed this year+last year in USA than all prior years combined. And those investments are happening because the return of investment is huge. Those batteries are there to smooth out the supply and helps keep the grid stable.
Free energy should mean algae production
This is a jump I'm not understanding. Do you mean that energy having no cost would mean that the electricity generated can be used to make algae? Or that it's a byproduct of?
Do you mean that energy having no cost would mean that the electricity generated can be used to make algae?
Yes. Make algae with energy that produces no carbon dioxide = carbon sink.
There's just no economic incentive to do so. (yet?)
The economic advantage is that our grandchildren might be able to have an economy if we don't crash and burn this place before we die.
I agree. Unfortunately that is too abstract a factor for most peoples present investment decisions.
Exactly! Put a real price of carbon and this will start to chance.
Germany actually spends money to stop Denmark producing power on windy days when prices get too low. Instead we could be making hydrogen and storing it in so many creative ways
Its 'free' anyway so there should be no concern about how much of it is lost in conversion
Nothing is free. Equipment costs money and time to build, operate, maintain, and repair.
The equipment to harvest energy, is built already and is practically being held inactive, because companies can't make money off it. If we could invest in ways to convert even some part of that excess energy into energy that could be sold later, I can't see why this should not be feasible.
The way I see it, companies are interested in making money on energy and not supplying affordable energy
Maybe we'll get to the point. This news just shows us, that solar power can really be very impactful, even in not-so-sunny Germany. And that we've reached a turning point, where we can no longer 'just' put up more solar panels, but also start developping systems to store this excess energy in an economically feasible manner.
But actually, that's nothing very new either. At least for home owners, who just put solar panels on their roofs, also investing in battery storage to use most of the produced energy themselves has been the economic strategy for a few years, since the price gap between what you got for putting energy into the grid, and what you had to pay for taking energy out of the grid was the only thing left that (economically) incentivized people to install solar power ever since the so called "Einspeisevergütung" subsidies have been dropped.
I imagine solar panels and wind turbines will become a lot more expensive when batteries (and other energy storage options) become available, as they will be a lot more useful. It only makes sense to build as many as possible before the storage option become available
Could you elaborate how to grow algae with electricity?
Fuck that title. No such thing as too many solar panels. The only thing that is bad is how the energy is used or if it's wasted. Free energy should mean algae production which would mean carbon negativity. Negative energy price should mean negative carbon emissions, get on it.
You are right, this is BS.
I recently researched this and Germany's grid is quite "smart" (the oldest technologies involved, such as DECABIT or VERSACOM over PLC, very much predate the term "smart grid" but whatever) and power plants and households are connected for production and load control. Power plants are required to participate but households can use a load management system for water tank heating (the basic premise is that specific frequency impulses are sent over the power grid for primitive (originally relay-based!) logic in DECABIT meters to switch depending on the assigned device group, and meters count in lower-price mode while the load is activated for a guaranteed number of hours each day; you can manually override the switch for expensive on-demand water heating) and/or HVAC (here, a smart thermostat is usually used that gets real-time energy prices and decides based on its temperature range settings if it saves money to run heating/cooling).
People in Texas apparently hate this (muh freedom), and look how reliable their grid is!
Anyway, solar, unlike coal or nuclear, is absolutely capable of going off-grid if necessary. There is an MPPT system in their inverters that usually works to operate the panels at the optimal voltage & current so that it can suck the most power out of them but it can be overridden to work at below 100% efficiency, or even 0%. This will cause the panels to run with no current draw and get about 20% hotter but they are designed to withstand this. Similarly, wind turbines can be braked, water can be passed outside turbine shafts and so can pressurized steam if you really need to cut production quickly. Still, this is an emergency condition, it is preferred to use pumped hydro (responds in 1 minute, limited capacity) or batteries (respond in seconds, very limited capacity) or lower coal/gas-based production (responds in 3-20 minutes for as long as you wish) or load-side management to regulate the grid, as it wastes no power.
The system is very complex and robust, the frequency (the variable most dependent on production/load balance) only dips below 49.8 Hz about once per a few years (the emergency value that was reached in February 2021 in Texas and can only be sustained for minutes before total blackout is -1% from nominal (49.5 or 59.4, respectively) and has never been touched in Europe's modern history).
(You'd think it would be voltage what falls in case of too little power but it can be readjusted quite easily with switched transformer taps and, oddly enough, reactive power management (connecting a few capacitor/inductor banks to mains) when necessary, however frequency control is the difficult part.)
The grid needs the supply and demand to be balanced for the power to be stable. Otherwise you get fluctuations in voltage and frequency which are both bad for anything connected to the grid.
There can absolutely be an oversupply of energy. We need to either find ways to store that surplus energy, or use it for something positive like desalination or carbon capture.
There's been more solar and battery storage capacity installed this year+last year in USA than all prior years combined. And those investments are happening because the return of investment is huge. Those batteries are there to smooth out the supply and helps keep the grid stable.
This is a jump I'm not understanding. Do you mean that energy having no cost would mean that the electricity generated can be used to make algae? Or that it's a byproduct of?
Yes. Make algae with energy that produces no carbon dioxide = carbon sink.
There's just no economic incentive to do so. (yet?)
The economic advantage is that our grandchildren might be able to have an economy if we don't crash and burn this place before we die.
I agree. Unfortunately that is too abstract a factor for most peoples present investment decisions.
Exactly! Put a real price of carbon and this will start to chance.
Germany actually spends money to stop Denmark producing power on windy days when prices get too low. Instead we could be making hydrogen and storing it in so many creative ways
Its 'free' anyway so there should be no concern about how much of it is lost in conversion
Nothing is free. Equipment costs money and time to build, operate, maintain, and repair.
The equipment to harvest energy, is built already and is practically being held inactive, because companies can't make money off it. If we could invest in ways to convert even some part of that excess energy into energy that could be sold later, I can't see why this should not be feasible.
The way I see it, companies are interested in making money on energy and not supplying affordable energy
Maybe we'll get to the point. This news just shows us, that solar power can really be very impactful, even in not-so-sunny Germany. And that we've reached a turning point, where we can no longer 'just' put up more solar panels, but also start developping systems to store this excess energy in an economically feasible manner.
But actually, that's nothing very new either. At least for home owners, who just put solar panels on their roofs, also investing in battery storage to use most of the produced energy themselves has been the economic strategy for a few years, since the price gap between what you got for putting energy into the grid, and what you had to pay for taking energy out of the grid was the only thing left that (economically) incentivized people to install solar power ever since the so called "Einspeisevergütung" subsidies have been dropped.
I imagine solar panels and wind turbines will become a lot more expensive when batteries (and other energy storage options) become available, as they will be a lot more useful. It only makes sense to build as many as possible before the storage option become available
Could you elaborate how to grow algae with electricity?
Turn excess electricity back into heat and light.
Input heat, light, water, air, and nutrients.
Output oxygen and carbon (algae biomass).