With a stronger current, less energy is wasted

High Voltage Direct Current is transmitted over long distances as 'HVDC BATTERIES'. AI control is used to regulate the voltage produced by the power plant before it is connected to the cable on the underground network that forms the transmission grid. With a higher current, less energy is wasted on heating the cables when overloaded.

Transformers are then used at substations in towns/villages and at local street level points in the distribution grid to step down the voltage for use in your house.

In a typical offshore wind farm with HVDC transmission, the wind turbines output power at MVAC and 50/60 Hz, the voltage (medium voltage alternative current) which is stepped up to HVAC followed by conversion to HVDC by an offshore converter station.
The stepped up voltage is then transmitted via the HVDCBATTERY.com submarine cable, directly to a DC connector to the main string for our HVDCBATTERY (we thus skip a converter station/link as there is no conversion to AC before "tapping" from the HVDCBATTERY infrastructure and converting to AC 240/400V consumption.
It is the distance to the consumer and up and down conversion that costs energy loss.

The wind farm - offshore system requires a 60 Hz AC voltage source for both activation and stationary operation of the turbines.
The offshore MMCs are configured in land mode to generate and maintain 60 Hz voltage to the connector system. Speed ​​and delivery can be controlled via the HVDCBATTERY.com software onshore.

Since Einstein and Edison, we have not thought more about "TRANSPORT OF ENERGY"

At the source, (A wind turbine delivers AC alternating current about 12 . 16 KW 50/60 Hz each) - which is collected and converted to DC, which is transported in DC submarine cables to a land station where the DC DC is again transformed to 132,000 Volt alternating current (132KV) for transport over greater distances, to, at the consumer again be transformed down to 230 or 380 (230 400 V) Volt alternating current with an energy of 16 Amperes. -
This up and down transformation costs 40% in energy loss from turbine to consumer.

Farlige AC/AC transformere

The transformers are ticking bombs, whether they are smaller transformers in California's lampposts, or larger collecting transformer stations in the City or residential neighborhoods.

In Denmark there is additionally "cf. Ohm's Law", a direct energy loss in the overhead lines (the Danish power grid) of approx. 6% - in Pakistan the energy loss is more than 17.3%

Here we have to use "Technofixthinking" + all the new algorithms, - quantum computers and all the "artificial intelligence" we can get.

Imagine if the State establishes a unified PTX corridor that can transport 40% more energy, just 30% cheaper, which will mean at least 20% cheaper electricity bills, and we then already produce 50% for export today.

If Denmark - Germany - France and Spain established the same HVDC BATTERY? - - then everyone could be connected in parallel and would function as a mega battery EUROPE - could draw on and charge to

We know that POWER ALWAYS finds the shortest path, that's why we connect Hesselø in Kvistgård (because Helsingør will consume the majority of the energy Hesselø wind farm can deliver) and - - Borup is not geo-strategically well located, if we are to rationalize with copper cables and load on the grid, - -

Remember power will always find the shortest path, and it is not via Borup.

There is currently discust a HVAC 5GW connection to a wind turbine and solar plant around the circular winds on the west coast of the Sahara
That is a distance from Northern Germany to the Sahara of 3,500 km.

If Germany - France and Spain were connected in parallel in an HVDC BATTERY as described here, you could connect the Sahara to the grid in Gibraltar

you could save 3,000 km of HVAC overhead lines through Spain - France and Germany, - -because power in our HVDCBATTERY always finds the shortest path, regardless of whether the Sahara is connected to Northern Germany or Gibraltar.

If Denmark believes it is most profitable to establish a 250MW 200KV High voltage direct current HVDC Battery, then we will just do it and all suppliers must deliver 250MW DC to the HVDCBATTERY.com charger (if the industry uses hydrogen to a greater extent for heavy tasks, it may be the loose end - - what do Norway and Sweden say - Germany says 5GW and hydrogen for the melting furnaces)

Danish Industry must establish a collaboration OR more precisely:

The Danish Government must establish a board with powers to establish a modern High voltage direct current HVDC Battery as an energy infrastructure. The board must "manage" and establish collaboration between relevant, at least 8 - 10 large industrial companies.

1. Here, a larger company (like the former BW) must be used for the heavy tasks we currently have produced in China. (Hydrogen combustion engines and larger compressors and generators) but because these are special and patented tasks, the patent can be given to a Danish manufacturer. (possibly in collaboration with new shipyards, - who may be interested in exporting "Hydrogen combustion engines and larger compressors and generators")

2. HVDCBATTERY.com is built in modules and the "core" is composed of links, the length of which is determined by transport options. - this means that couplings between links and sections must be manufactured, which in itself will be a huge task that runs on an independent patent.

3. One of the leading companies that develop electrolysis plants (must work together with no. 1 as if it were a company with its own patent)

4. The very core "in HVDCBATTERY.com" consists of a method of transporting electricity and hydrogen, where hydrogen "carries" up to 6.4 GW in the superconductor and by energy generated by pressure difference and (the "kinetic motion energy" that is always found around electrical charges), we convert it into electromagnetic energy, which we in turn use to "balance" a stable High voltage direct current HVDC infrastructure up to 6.4 GW available at any point from Skagen to Tønder. - -24/7 - Regardless of weather, wind, sun, summer and winter.
Does NKT have "Pondus" to produce the core? ? - - Even if it becomes a gigantic Danish export adventure? ? - - - Can NKT lay cables to India if it were to come up? ? - - - or do we have to go to Europe to find a company that can handle the project in cooperation with the board of directors for High voltage direct current HVDC HVDCBATTERY.com?

5. Denmarks strongest IT company AND IT MUST BE Denmarks STRONGEST must further develop and operate the software part, also on the export market.

6. For security reasons, the Danish vital data fsa. HVDCBATTERY.com, must be stored on a Host designated and monitored by FE. - - - The software used must NOT HAVE ANY CONNECTION TO AZURE - CLOUD COMPUTING - Word365 or any Microsoft AI assistants. Same as the software used in the High voltage direct current HVDC Authority for HVDCBATTERY.com operation and maintenance.

HVDCBATTERY is modular

Each module can work independently
If all cables to all wind farms in the North Sea are cut by the Russian shadow fleet, the affected HVDCBATTERY module (Central Jutland) will correct itself and the HVDCBATTERY AI-assist will compensate for the loss by disconnecting the affected wind farms and pulling from the nearest neighbor North/South East/West.
With the new development, equalization and compensation occurs so quickly that the wide-angle view does not have time to "flicker".

HVDCBATTERY is connected in parallel in modules

This means (if we want the above to work) that between each parallel connected module must be inserted a "Two way - back to basic" converter, understood in the way that all modules are connected so that all modules provide exactly the same, for example 3.5GW 500KV or 6.4GW 700KV DC DVS. (Power always finds the shortest path, and can thus move across or through all modules from Nuuk in Greenland to Ushuaia in Argentina (a global energy autostrada)
HVDCBATTERY provides opportunities to collect multiple grid segments and connect multiple solar, wind, water, over longer distances, from Nuuk in Greenland to Ushuaia in Argentina.

The more the Earth tilts, the greater the difference between winter and summer.

Global HVDCBATTERY

A global or multiple modular HVDCBATTERY modules where all allied countries, sovereignly own the modules needed for the countries in question, but a strong alliance commits to cooperation (if a wind farm in East Greenland "Sells" power to Ushuaia, then the power can be delivered in Skagen and Argentina can tap the power in Ushuaia, - a value is settled to the individual countries per KWh. per km cable length)

Switching between energy suppliers

The HVDCBATTERY structure also means security because a country has the option to change energy supplier if problems arise with the current one

The Sun's elliptical orbit around the Earth

You could say that the Earth's elliptical orbit around the Sun determines whether HVDC energy should flow towards the North/Greenland or the South/Argentina