High Energy Laser Weapon air defence system

A HVDCBATTERY.com Power Systems project with a wind turbine capacity of a total of 2GW can power 30 - 40 600KW Laser Cannons and all military installations in all of West Greenland and would be a more effective defense against ballistic weapons against North America. - - - cheaper than satellite surveillance and with far greater strength.

All 40 600KW Laser Drone wall Cannons can be fired serially within a few seconds.

The system can be operated with a single wind turbine that collects hydrogen for a buffer that automatically starts up hydrogen generators for 2 - 3 GW as needed

Laser weapons against drones

Hundreds of small, inexpensive drones fill the sky or glide over the water, prompting the military to develop laser weapons as an alternative to expensive missile-based defense systems.

US = Helios 300KW
UK DragonFire laser weapon 50KW
Israel = Iron Beam Laser System 50KW - Light Beam 10KW - NAVAL IRON BEAM is 100kW

Northrop Grumman has delivered the Phantom. a 10-kilowatt system that the company says is the size of a mini-fridge.

What are focused energy weapons?

Directed energy weapons (DEWs) use concentrated electromagnetic energy to attack and neutralize enemy targets and assets. and include high-energy lasers and high-power electromagnetic systems, including millimeter-wave and microwave weapons. Unlike traditional weapons, DEWs have the advantage of reversible effects. They can degrade or disable electronic systems without destroying them.

Laser connons in the 50 kW class are designed to defend land and sea targets against threats such as missiles and mortar shells.

Types of DEW Laser Weapons Drone wall

The IRON BEAM 100kW High Energy Laser Weapon System (HELWS) is the first operational system in its class to quickly and effectively neutralize a range of threats from short range to several kilometers. Operating at the speed of light, IRON BEAM has an unlimited magazine with minimal cost per launch and causes minimal material damage. IRON BEAM can be integrated with a variety of platforms and can become part of any defense system.

High-energy lasers (HELs) emit a concentrated beam of light, typically in the infrared spectrum.

Lasers can be continuous or pulsed and deliver a power of 1 kilowatt. The precision of the laser allows it to target and melt metal, plastic, and other materials from a distance.

Millimeter-wave weapons operate in the 1 to 10 millimeter wave range and deliver more than 1 kilowatt of power. and can affect multiple targets simultaneously due to the wider beam.

High-energy microwave weapons generate microwaves with longer wavelengths than lasers or millimeter waves, and are capable of producing more than 100 megawatts of power and can disrupt multiple targets within their wider beam range.

The problem with Laser weapons is that enormous amounts of energy must be used, and storage for firing, limits in weight and laser weapons over 15kW become too heavy for an F35 jet.

Limitations of laser weapons

A challenge for the defense is the enormous power consumption required to cause damage at a distance. Unlike industrial lasers, military operations involve significantly greater energy consumption.
Burning through materials at longer distances requires hundreds of KW of laser power.

The small prototype laser weapons use 10 KW of power, which is roughly equivalent to an electric car.
The latest high-energy laser weapon uses 300 KW of power, which can approximately supply 30 households with electricity.

To start 300 KW up for firing, enormous amounts of waste heat are generated that must be cooled.
This means that high-energy laser weapons require extensive infrastructure for power generation and cooling systems, which places limits on the power that can be generated from our old AC power grid and military platforms.

Permanent ground-based systems have fewer limitations and work is now underway on a 600KW Laser cannon, which potentially makes it possible to shoot down a distant satellite.

HVDCBATTERY Power Systems and laser Drone wall weapons

Laser Cannons require a strong energy grid for start-up and re-charging and the larger +30KW Laser Cannons generally take too long with our current AC energy grid

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HVDCBATTERY.com starts a laser weapon in a split-sec.

Just one HVDCBATTERY.com module with a total of 2GW can pull 30 600KW Laser Cannons
HVDCBATTERY.com is modular and it is expected that Denmark today can "carry" 3 modules of each 3GW DC.
The three modules are all designed so that the energy infrastructure can be expanded to 6GW within 2050

If the defense is reading along

You have to imagine that the HVDCBATTERY.com Infrastructure is a gigantic 3GW battery Power Systems. - - That battery can replace more than half of all the equipment that needs to be used to fire a laser cannon

When the HVDCBATTERY.com energy infrastructure is established, we must establish a direct HVDC 3GW +LH2 Power Systems connection to CPH Airport, perhaps to ALL airports and ALL ports.
Drone wall In and around every port or airport that is connected to the new HVDC energy infrastructure, a direct "PLUG-IN" can be established for up to 30 600KW laser cannons that are ready to fire the moment the "tricker" is activated. The powerful 600KW Laser Cannons do not have to wait for (enough power) there is 3GW 24/7 summer and winter and if Putin sends 3000 drones simultaneously, then power is drawn from the Jutland HVDC modules
If Putin sends 1000 - 2000 drones, they will all be shot down over the water, many km. before a single one reaches inhabited areas,
We still have to connect the new cruise port and the inner city could be defended with Laser Cannons Drone wall that are set up off Lynetteholmen.

Can Laser weapons Drone wall be established without HVDCBATTERY.com technology?

Yes, But The most ideal would be to establish HVDCBATTERY.com +LH2, in to the capital and out from the airport Pull HVDC to tracking systems and Laser weapons
Currently, there is not enough energy to obtain a laser Drone wall system (a drone defense) from the old AC system or the airport generators and a drone defense of the capital will be extremely expensive under the old AC local grid.

But if you do the math, Denmark has HVDC cable manufacturer NKT and one of the world's best Radar defense systems
 Weibel radars for accurate 3D tracking
Weibel's tracking radars are based on X-band CW, MFCW and FMCW radar systems, consisting of advanced, high-performance pedestals, real-time multi-object tracking processors and advanced waveform generators that can track one or more drone swarms as early as 17 km. out over the water before a single drone reaches the airport or built-up areas, all controlled from the operator console.

Today everyone is demanding Drone defense systems and there may be delivery problems due to the high demand, - - Israel has a super IRON BEAM 100kW high-energy laser weapon system (HELWS), which Denmark has looked at, but with a long delivery time, when we have daily threatening drones over our vital infrastructure

In short, HVDCBATTERY.com, fsa. The HVDC part, which is the most important part of an effective drone defense system, no matter which system you choose
That part NKT can supply by means of an HVDC 2GW 530KV underground cable connection (Avedøreværket) in a ring around the airport and another around Lynetteholmen (Svanemøllen, for defense of the inner city.)

A drone defense system Drone wall, uses enormous amounts of energy, when that part is in place, it should be possible to make agreements with Weibel and/or IRON BEAM 100kW high-energy laser weapon system (HELWS) for the supply of the other part of the weapon system - Drone wall