Antigravity Battery for Energy Storage

Antigravity Battery for Energy Storage

 Antigravity Battery for Energy Storage? In a gravity battery, a mass is displaced or lifted to generate gravitational potential energy transformed into electricity. Gravity batteries store gravitational potential energy by lifting amass to a certain height using a pump crane or motor. Antigravity Battery for Energy Storage? After breakthrough storage capabilities ranging from 2-18 hours of duration with competitive economics and lifetime round-trip efficiency of over 80% Anti gravity Battery for Energy Storage.

Conceptual Framework of Energy Storage:

The ability to capture energy at one time for use at a later time. Storage devices can save energy in many forms like chemical kinetic or thermal and convert them back to useful forms of energy like electricity. A battery storage of energy storage system (BESS) are device that enables energy from renewable like solar and wind to be stored and then released when the power is needed most.

The objective of the anti-gravity battery  energy storage system:

Gravity battery is an alternative power supply system that harnesses green energy sources such as solar panels and uses them to store and deliver power in terms of mechanical and electrical machinery as energy conversion.

 Besides beginning an important flexibility solution energy storage can reduce price fluctuations lower electricity prices during peak times and empower consumers to adapt their energy consumption to prices and their needs. Battery storage or battery energy storage systems are devices that enable energy from renewables like solar and wind to be stored and then released when power is needed most.

 

Types of energy storage systems:

 

There are many types of energy storage this list serves as an informational resource.

1: Batteries

 There are various types of batteries including lithium-ion batteries, flow, lead acid, sodium, and others designed to meet specific power duration requirements.

2: Thermal

Thermal systems use heating and cooling methods to store and release energy. For example: molten salt stores solar-generated heat for use when there is no sunlight. Ice storage buildings reduce the need to run compressors over several hours. Other systems use chilled water and dispatchable water heaters. Excess energy charges the storage system ( heat the molten salts, freeze the water, etc. ) and is later released as needed.

3: Mechanical System

• Flywheels: Flywheels store energy in a rapidly spinning mechanical rotor and are capable of absorbing and releasing high power for typically 15 minutes or less
• Pumped Hydro Power: Pump hydroelectric facilities are the most common form of energy storage on the grid accounting for over 95% of the storage in use today.

4: Emerging Technologies

Compressed air superconducting magnets underground pumped storage and hydrogen storage are all forms of emerging energy storage that are different in stages of development.

 

Theory of anti-gravity storage system

 Anti-gravity ( also known as a non-gravitational field) is a hypothetical phenomenon of creating a place or object free from gravity.  Anti-gravity involves lessening the effect of gravitational pull on an object; the science isn’t there yet. Many scientists strongly believe that anti-gravity isn’t possible.

Main theories of gravity

• Newton’s  law of universal gravitation
• Gauss’s law of gravity
• Poisson  equation  for gravity
• History of gravitational theory

Applications of  Storage batteries:

• House
• Health instruments
• Medical
• Logistics and Construction
• Firefighting and emergency
• Military

Historical Context of Battery Storage System:

The first rechargeable battery came in 1859 when Gaston Plant Plant invented the lead acid rechargeable battery. This was achieved by immersing a lead anode and cathode in sulfuric acid to produce lead sulfate. In 1899 Swedish engineer Waldemar Jungar invented a nickel-cadmium battery. This epoch-making battery is the origin of today’s storage battery. In 1900 the great inventor Thomas Edison who was also known for commercializing filament lamps invented a nickel-iron storage battery. It is called an Edison battery. In 1800 the first true battery was invented by the Italian physicist Alessandro Volta 

Pros:

•  High specific energy
• Long storage times and instant readiness
• They can be carried to remote locations and used instantly even after long storage
• They are also readily available and environmentally friendly when disposed of.
• It can deliver the power needed to safely back up and shut down critical systems. 
• The gravity there is a waterfall which we use today for generating energy
• Gravity there is rain that pours on our land

Cons: 

• The most important drawback is their adverse environmental impact, disposal problem, efficiency, and charging time.
• It requires significant infrastructure and land to be built.
• Shorter service life 
• Battery generally needs to be replaced serval times over the period.
• Higher maintenance require
• Gravity can pull any large rock or asteroids which ones enter into our atmosphere can produce catastrophic damage.

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