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OUR SUBSTITUTE FOR WATER HEATING AND STEAM GENERATION DEVICES. WORLDWIDE PATENT PENDING. John Dorsett. Current Boiler Environment. US Industrial sector annually consumes 24.7 quadrillion Btu of water
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OUR SUBSTITUTE FOR WATER HEATING AND STEAM GENERATION DEVICES WORLDWIDE PATENT PENDING John Dorsett
Current Boiler Environment • US Industrial sector annually consumes 24.7 quadrillion Btu of water • ‘Water heaters’ do not produce a continual supply of hot water, they heat one batch at a time • Boilers are able to provide continuous hot water/steam • Conventionally, boilers are powered by fossils fuels or electricity derived by burning fossil fuels • Or: nuclear power/renewable resources
Conventional Water Heaters • Storage Water Heater • Keeps water tank hot regardless of consumption • Tank-less Water Heater • Heat water on demand using a faster method • No standby losses • The savings of tank-less heaters are lost in installation costs, and maintenance costs, so it lacks widespread use
Conventional Steam Generation • Current steam generators require large amounts of space • Steam Boilers are usually installed off-site • For safety reasons (gas leakage/explosion) • Loss of energy in transport of steam • Too noisy to have on-site
Current Need • Reduce reliance on foreign fuel supplies • Reduce environmental impact • Cost savings • Increased efficiency
Our Product • Can remove impurities from liquids while heating • Alternative application of product: Cleaning water • During steam generation only • Much safer because it does not utilize gas power • Can be located on-site, therefore reducing transport of steam • Flexibility in input voltage • Reduced carbon footprint • Green product, environmentally friendly • Affordable • N0 special installation
Operation: Transfer Unit • Our Product operates on the principles of molecular friction and nucleation • The transfer unit efficiently heats the water • Positioned in the vessel’s interior • Houses the two or more ‘activators’ (customizable) • Transfer Unit housing allows water to enter and contact the ‘activators’ • Equipped is a drain valve which empties accumulated impurities during steam generation
Operation: Activators • Manufactured from conductive material • In contact with both a power source and the liquid which is to be heated • Activators may only be energized when there is enough liquid present in the vessel • Input voltage will vary depending on number of activators installed • Sensors regulate the electricity flow to activators and monitor other parameters of operation
Operation: Activators • One activator is always grounded, the remaining are connected to the power source • Example of activators : voltage ratio • Activators are only powered if they are needed • For example, if 2 suffices, only 2 of 5 will receive power
Operation: Summary • The liquid sensor detects enough water in the vessel • The control unit energizes the activators • The current flows to the activators • Energy is transferred from activators to the liquid • Activators in contact with liquid superheat it • Impurities from the liquid may be removed • Continuous hot water or steam output released