How does Free Electricity from Magnets help the environment?

Renewable energy companies are doing a great job to save the world from exhausting the available resources. Today, we have all the movements that are geared towards saving the world. These range from those supporting the green energy and using of magnetic electricity among others. But how do they really help in saving the energy?

The first thing we should know is that most of the energy we use is gotten through mining. These include coal and crude oil that is refined thereby giving all the petroleum products that we know. When coal and the petroleum products are combust to give energy, they always pollute the air by emitting very poisonous gases that include carbon monoxide and carbon dioxide, sulphur dioxide and ozone gas among others. The above gases are known to have several negative effects to the body. But when we use electricity from magnets the production of the electricity is environmental friendly and we can be stay in an environment that is not so polluted. When we use magnetic electricity it does not depletes the ozone layer like the other methods of producing electricity.

Other methods of generating electricity deplete the ozone layer which is responsible for absorbing ultraviolent rays. Today there is a high rate of global warming that has changed the whole ecosystem and plants and animals are really suffering because of this problem. In addition, there is an increase in the occurrence of melanoma which i9s skin cancer due to the increase in the amounts of ultra violet radiations. It will therefore be important that we do not use such energy that cause these problems but go for electricity from magnets.

Mining in itself leads to the excavation of soil; from the ground level. Many land mines have been left open thereby making them to be dangerous to the lives of organisms. Such lands are also rendered useless since there is no reasonable commercial activity that can be done on them. Together with that, we have pollination of land and water coming due to these forms of mining. Sam Barnes discusses processes to avoid refueling fires and other types of damage when mining. Oil spillages among others have caused death of aquatic animals among other land animals all of the above are caused by sources of energy which instead of making our environment friendly, it makes it toxic that’s why magnetic electric generation is preferred in many developed nations.

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Renewing energy can also lead to the existence of a clean environment. What was previously considered as garbage has today been put into good use.  Household wastes and sewage waste as well as garden wastes were previously filled landfills. Some were just dumped in areas where they could rot and release more toxic compounds. Today, such wastes are used as a raw material for making bio gas. With biogas, which is more environmental friendly than the commercial gas from the crude oil, we are able to save the environment the more but thanks to technology because we now have free electricity from magnet which is even more environmental friendly.

Going for no renewable energy also depletes the environment of its natural resources. Those using timber to provide energy in their homes and industries are partly to blame for the deforestation in the world.

Renewable energy is also generally cheap in the long run. It may always be expensive to install but cheap to run unlike the non-renewable energy which becomes expensive day by day. It is possible to have cheap magnetic energy as long as there is sufficient amount of the natural resources responsible for the creation of this renewable energy. Renewable energy include hydroelectric power, solar energy, wind energy, tidal power, geothermal energy, biomass among many more.

Maintenance of your free electricity from magnets

One of the most important factors as far as magnetic operation reliability and its touchable parts is temperature. Temperature of these devices will always determine not only the operational reliability but also the personal safety together with the lifespan of the magnetic unit. The switchgear’s ambient temperature, air conditioning, heat flow through the enclosures, wiring method and installation method of the device are key factors. Mutual heating, formation of hotspots and heat abduction will absolutely determine how the device will be installed. The conduction of heat through wires and lastly the dissipated heat of the device all have an influence in the performance of the units hence worth being factored in.

All the relevant standards which include: (IEC 60439-1 for low-voltage switchgear assemblies) and (IEC 60947-1 for the low voltage switchgear) will define the temperature rise upper limits of the relevant parts used for construction of the units. The IEC 60204 defines the safety of the machinery and machine equipment.

In some cases, such as that of terminals, the permissible temp-rise appears to be higher than you may imagine. The connection of the permissible continuous insulation temp (70°C) with the conductor materials is what determines the limit values. Since after just a short distance the temperature of the conductor starts decreasing considerably, the high temperature rise of the connection point is permissible. The temperature here reduces as a result of heat transfer away from the terminal or rather connection point through the connection line.

The conduction material: busbar, cable etc work as thermal aerial that assist in the dissipation process of heat. The limit values have been chosen after several years of experience in connecting billion of connection/terminal points. It is the absolute temperature and not the temperature rise that will pose risk of accidents, affect the lifespan of the unit and interfere with performance issues. The absolute temperature is therefore decisive for functional reliably and the general performance of the low voltage switchgear and control gear assemblies of free electricity from magnet.

The ambient temperatures reference is in accordance with 35°C taken on average after a period of 24hrs with the maximum temperature value being 40°C. When in actual service the ambient temperature surrounding the devices goes beyond these values i.e. when installation is in a switching cabinet, then the loads ought to be considerably reduced to ensure the permissible absolute values of temperature are observed. The normal range of temperature of devices according to the IEC 60947 is very much identical to that normal range of temperature for switchgear assembles according to the IEC 60439 standards in which the installation of the device has been made.