I was contacted recently by a English journalist, Eve Pearce, who offered to write some content for my websites. I thought it was a good idea but as I am so busy at the moment, I had decided to leave my websites as they are for the time being, so I offered her a guest spot on my blog to see what comments an 'outsider' would generate. I use the word, 'outsider', not in any pejorative sense, indeed I was delighted with her article, but in the sense that she is not part of our somewhat closed community and she can provide a fresh viewpoint to our research.
Her website is at http://www.andalemono.com/ and here are some samples of her other work:-
http://www.antarcticconnection.com/blogs/Fiennes/
http://www.greenweddingconsortium.com/green-weddings/how-big-is-your-weddings-carbon-footprint/
http://www.oyetimes.com/lifestyle/homes/29907-is-the-canadian-housing-bubble-about-to
Her article follws:-
Perpetual Motion Machines in Use Today
Critics of Bessler´s Wheel would argue that perpetual motion in such instance would be impossible as it contravenes both the first and second law of thermodynamics; while energy is conserved, the energy of a closed system changes due to the transfer of heat and work between it and its environment and secondly isolated systems move towards thermal equilibrium, where entropy is at its greatest, so thermal energy is unable to be transferred for work. However, while they use their theories as evidence, they forget about the best evidence that we could possibly have for perpetual motion machines - those that are in use around the world today. A number of devices have already been invented that allow us to harness the motion in the environment that can go on indefinitely without any further human input; after all everything everywhere is moving - the Earth, its rivers and seas and the very atoms that everything on the planet is made up from. While the Cox Clock - which uses changes in barometric pressure to keep on running - may only be a relic in a museum, we consider another three devices that are examples of perpetual motion machines and are in use today.
Atmos clock
This clock produced in Switzerland by Jaeger-LeCoultre is mechanical, but does not need to be wound. Instead it obtains the energy that it requires to run from changes in temperature and atmospheric pressure in its surrounding environment. The clock contains a mixture of ethyl chloride gas and liquid in an airtight capsule. With a rise in temperature and pressure the mixture expands into a chamber, causing a spring to be compressed; the converse occurs when the temperature or pressure falls. The temperature only needs to change by a very achievable 1C or the pressure by 3mmHg every two days for the clock to continue running. The clock is however helped by an internal environment that is almost friction-free and a torsion pendulum that uses less energy than a standard pendulum would.
Tidal power generator
Our high energy usage in our homes and businesses requires the use of vast amounts of gas and electricity. Consequently there has been much development in the renewable energy sector in recent decades, one area of which has been tidal power; the energy from the movement of tides is converted into electricity. Tidal forces are the consequence of changes in gravitational attraction exerted by the Moon as it orbits the Earth; in short its attraction to the seas causes their level to rise and water from the middle of the seas is forced towards the shore. Tides occur consistently as the moon has an unchanging orbit around our planet; this makes tidal power more reliable than sources such as solar or wind power, which can fluctuate significantly. Tidal power can be generated through use of a tidal stream generator, which uses the energy of moving water to drive turbines and then generators. Alternatively a tidal barrage uses the difference between the height of a high and low tide; a dam is used to hold back the water at high tide, allowing its energy to build up, and when released at low tide the energy is used to drive turbines. There is also potential for the use of dynamic tidal power, which could use the interaction between the kinetic and potential energy in a tide.
Geothermal power generator
This renewable energy source relies on the energy released when matter is condensed by gravity. Geothermal power plants use the steam produced by geothermal sources to generate electricity. In dry steam power plants - the original method to harness geothermal energy - the hydrothermal fluids are largely steam, which drives a turbine directly; the knock on effect of which is to drive generators and produce electricity. Flash steam power plants are what are most commonly found today; high temperature fluid is pumped under pressure into a tank at surface level, where it is held at a lower pressure, causing some of the fluid to vaporize, which drives the turbines. In a binary cycle power plant the geothermal water or steam is never in contact with the turbines; instead the geothermal fluid passes with a cooler fluid through a heat exchanger, with the transfer of heat causing the second fluid to evaporate and then drive turbines and a generator Having considered these three devices that are driven by nature, could Bessler's Wheel have worked in a similar way through interaction with its surroundings? This theory was pondered by the mathematician Jean Bernoulli, who proposed that the motion seen in nature could support perpetual motion; rather than labelling machines such as Bessler's Wheel as working under artificial perpetual motion, they could move under combined perpetual motion with the help of nature.
http://www.antarcticconnection.com/blogs/Fiennes/
http://www.greenweddingconsortium.com/green-weddings/how-big-is-your-weddings-carbon-footprint/
http://www.oyetimes.com/lifestyle/homes/29907-is-the-canadian-housing-bubble-about-to
Her article follws:-
Perpetual Motion Machines in Use Today
Critics of Bessler´s Wheel would argue that perpetual motion in such instance would be impossible as it contravenes both the first and second law of thermodynamics; while energy is conserved, the energy of a closed system changes due to the transfer of heat and work between it and its environment and secondly isolated systems move towards thermal equilibrium, where entropy is at its greatest, so thermal energy is unable to be transferred for work. However, while they use their theories as evidence, they forget about the best evidence that we could possibly have for perpetual motion machines - those that are in use around the world today. A number of devices have already been invented that allow us to harness the motion in the environment that can go on indefinitely without any further human input; after all everything everywhere is moving - the Earth, its rivers and seas and the very atoms that everything on the planet is made up from. While the Cox Clock - which uses changes in barometric pressure to keep on running - may only be a relic in a museum, we consider another three devices that are examples of perpetual motion machines and are in use today.
Atmos clock
This clock produced in Switzerland by Jaeger-LeCoultre is mechanical, but does not need to be wound. Instead it obtains the energy that it requires to run from changes in temperature and atmospheric pressure in its surrounding environment. The clock contains a mixture of ethyl chloride gas and liquid in an airtight capsule. With a rise in temperature and pressure the mixture expands into a chamber, causing a spring to be compressed; the converse occurs when the temperature or pressure falls. The temperature only needs to change by a very achievable 1C or the pressure by 3mmHg every two days for the clock to continue running. The clock is however helped by an internal environment that is almost friction-free and a torsion pendulum that uses less energy than a standard pendulum would.
Tidal power generator
Our high energy usage in our homes and businesses requires the use of vast amounts of gas and electricity. Consequently there has been much development in the renewable energy sector in recent decades, one area of which has been tidal power; the energy from the movement of tides is converted into electricity. Tidal forces are the consequence of changes in gravitational attraction exerted by the Moon as it orbits the Earth; in short its attraction to the seas causes their level to rise and water from the middle of the seas is forced towards the shore. Tides occur consistently as the moon has an unchanging orbit around our planet; this makes tidal power more reliable than sources such as solar or wind power, which can fluctuate significantly. Tidal power can be generated through use of a tidal stream generator, which uses the energy of moving water to drive turbines and then generators. Alternatively a tidal barrage uses the difference between the height of a high and low tide; a dam is used to hold back the water at high tide, allowing its energy to build up, and when released at low tide the energy is used to drive turbines. There is also potential for the use of dynamic tidal power, which could use the interaction between the kinetic and potential energy in a tide.
Geothermal power generator
This renewable energy source relies on the energy released when matter is condensed by gravity. Geothermal power plants use the steam produced by geothermal sources to generate electricity. In dry steam power plants - the original method to harness geothermal energy - the hydrothermal fluids are largely steam, which drives a turbine directly; the knock on effect of which is to drive generators and produce electricity. Flash steam power plants are what are most commonly found today; high temperature fluid is pumped under pressure into a tank at surface level, where it is held at a lower pressure, causing some of the fluid to vaporize, which drives the turbines. In a binary cycle power plant the geothermal water or steam is never in contact with the turbines; instead the geothermal fluid passes with a cooler fluid through a heat exchanger, with the transfer of heat causing the second fluid to evaporate and then drive turbines and a generator Having considered these three devices that are driven by nature, could Bessler's Wheel have worked in a similar way through interaction with its surroundings? This theory was pondered by the mathematician Jean Bernoulli, who proposed that the motion seen in nature could support perpetual motion; rather than labelling machines such as Bessler's Wheel as working under artificial perpetual motion, they could move under combined perpetual motion with the help of nature.