“Water energy” is a term used because water is often thought to have a special and mysterious property with regards to how to store energy. Water is able to transfer energy to both air and water at different rates depending upon it’s temperature. Water is said to be able to transfer heat to air at a rate 50% greater than air when it is under the same conditions of temperature (saturation), which is often quoted as a 50:50, but really means the opposite.
Water energy is also the opposite of a thermodynamical process – where an object uses energy in certain specific ways and then loses it when the same conditions occur again. For example, when an object burns something in one place and absorbs it in another (called a thermo-exchange), the remaining part of the object burns, releasing energy in a similar way, but this time to a different place. This energy can be used to heat a building, for example, which is known as a thermal transfer.
Water has a low energy density, which allows it to carry a high volume of water per volume of air. This is due to its high density and can be thought of as a large, water-filled cylinder that can expand in certain directions; a gas cylinder can be thought of as a small box filled with air that expands in a particular direction, while a liquid cylinder has similar characteristics, but a small water-filled cylinder. The cylinder and cylinder air can be considered as two different states of water, each with a different temperature difference (and therefore with a different rate of energy transfer). The higher the temperature difference, the more energy you can transfer to water.
The energy-density of water is roughly equivalent to what is found in the “free” (non-condensing) part of the universe – we know of energy in that “free” state because heat and light can’t exist in that state. On the positive side of this equation is the “heat” of water. A lot of things that heat up in this state can’t be used for energy, for example, electricity and the electromagnetic field.
In addition to temperature, other forces that affect water behavior are pressure and elastic properties of water. Pressure is a force exerted by the weight and height of the object and changes depending on it’s location in the water column. The less distance between an object and the water column that an object has, the higher the pressure. Some structures, such as a tower, are able to withstand a much larger pressure
free energy definition thermodynamics pdf notes, build tesla free energy generator, diy free energy generator plans, free energy light kit, permanent magnet motor free energy 500 kw wind