Friday, March 27, 2015 3:17:28 PM
>*(TNKE)*-189,348,400-Million-Float-<<<-http://investorshub.advfn.com/boards/read_msg.aspx?message_id=111910483
Over $4,000,000 in revenue
The Water Technology Wastewater Sewage Treatment system uses a Closed Loop Reactor (CLR) Process to effectively treat sewage and recycle the water for reuse in agriculture and other purposes.
Diagram 3: CLR Process – Aerial View
The CLR process is a modified version of the extended aeration, complete mix process, providing the elements for biological nutrient removal. This process produces removal efficiencies that meet and exceed the efficiency of advanced tertiary treatment process. The CLR process is a centralized process that receives black water from major pipes and plumbing sources or from a wastewater collection cistern. Heavy grit is allowed to settle before being removed in the Grist Classifiers. The water is cleaned using aeration and further filtered in the Spiraflo Clarifiers before being discharged into irrigation fields, pumped into buildings, or stored in water tanks.
Diagram 5: Spiraflo Clarifiers
The Spiraflo Clarifiers are needed in two stages, primary clarification and the final clarification process. The final clarifier is the “heart” of any biological process. The Spiraflo Clarifier is proven to be from 2 to 4 times more hydraulically efficient than a center-feed clarifier. This part of the process is vital is ensuring that all sludge is removed from the water prior to aeration. It also has a surface skimmer that collects scum, grease or anything floating at the surface of the water.
A typical CLR process produces two final products, water and sludge. The water can be churned back into the Triple “R” System for further recycling and possibly into drinking water. The sludge can be reproduced into pellets that are used as fertilizer in agriculture or dried sludge is usually disposed of in landfills. If the sludge is not needed for fertilizer, there is a second option for the CLR process that produces zero sludge. This process of sludge removal is currently used in military bases and offshore oil rigs.
The CLR Process can produce up to 3,700 tons of water per day and can be customized to produce up to 37,000 tons of water per day.
Tripple R Water Recycling™ Industrial Mining Waste and Recycling System
The proposed wastewater treatment system for mining waste will draw wastewater from existing sediment basins, already lined with the geomembrane filter.
This system is based on a 10 ton per hour water output and is scalable depending on the number of mines in a given area.
Diagram below shows a fully automated system with a programmable logic controller (PLC), supervised control and remove data acquisition (SCADA), alarm paging capabilities (for offsite management), and virtual instrumentation.
In this process, the wastewater flows through the treatment system by gravitational movement so minimal energy is required to move the wastewater. The cleaned water can be redirected for immediate reuse in agriculture, pumped into buildings and communities, or further refined in the Triple “R” System for potable water.
*Assumptions: Average Coal Mining Wastewater Analysis (Gansu Huating Mine)
Visible Objects and Suspended Particulate Matter
PH Value 0.006~0.051
CODcr 66.4~131.7
Sulphide 1.09~1.67
Suspensions 360~500
Phenol 8.41~8.55
TN 5.600 ~5.864
Arsenic (ng/L) 0.198~0.220
TP 0.085~0.104
Fecal Coliform 260~393
Tripple R Water Recycling™ Water Collection System
The Rain Water Catchment System is an automated water collection system that collects runoff rain water for reuse as potable water, or for agriculture purposes. A version of this system is part of the patent pending Triple “R System as mentioned in point 3.1.
The rain water basin uses an infrared light sensor to detect rainfall and automatically opens a reverse umbrella top as a catch for rain water. The umbrella top is automatically closed by the same infrared sensor to prevent catchment of debris, and fallen particles. The collected rain water is sent to an ozone generator for purification.
The entire Rain Water Catchment System is powered entirely by wind (with an option to use solar). Methane gas produced by the waste basin is also used to power electric generators that can provide energy source to the system and the community as well.
Tripple R Water Recycling™ Cultivation System
The Cultivation System taps existing water from nearby rivers and lakes by pumping water through vertical turbine pumps into a reverse osmosis (RO) membrane system for preliminary cleaning. The cleaned water is then channeled into a modified version of the Triple “R” System and treated with UV before entering a double media filter.
Diagram 8: Wind/Solar Panels
The water is injected with Kelzyme, a natural soil conditioner and fertilizer. Kelzyme is assimilated from plants and is proven to repress harmful bacteria and fungi in the soil, as well as act as stimuli for growth of helpful bacteria in the soil that release, fix, or create nutrients for crops. The agriculture water is distributed via a pump booster system, through pipelines, and into farms.
Over $4,000,000 in revenue
The Water Technology Wastewater Sewage Treatment system uses a Closed Loop Reactor (CLR) Process to effectively treat sewage and recycle the water for reuse in agriculture and other purposes.
Diagram 3: CLR Process – Aerial View
The CLR process is a modified version of the extended aeration, complete mix process, providing the elements for biological nutrient removal. This process produces removal efficiencies that meet and exceed the efficiency of advanced tertiary treatment process. The CLR process is a centralized process that receives black water from major pipes and plumbing sources or from a wastewater collection cistern. Heavy grit is allowed to settle before being removed in the Grist Classifiers. The water is cleaned using aeration and further filtered in the Spiraflo Clarifiers before being discharged into irrigation fields, pumped into buildings, or stored in water tanks.
Diagram 5: Spiraflo Clarifiers
The Spiraflo Clarifiers are needed in two stages, primary clarification and the final clarification process. The final clarifier is the “heart” of any biological process. The Spiraflo Clarifier is proven to be from 2 to 4 times more hydraulically efficient than a center-feed clarifier. This part of the process is vital is ensuring that all sludge is removed from the water prior to aeration. It also has a surface skimmer that collects scum, grease or anything floating at the surface of the water.
A typical CLR process produces two final products, water and sludge. The water can be churned back into the Triple “R” System for further recycling and possibly into drinking water. The sludge can be reproduced into pellets that are used as fertilizer in agriculture or dried sludge is usually disposed of in landfills. If the sludge is not needed for fertilizer, there is a second option for the CLR process that produces zero sludge. This process of sludge removal is currently used in military bases and offshore oil rigs.
The CLR Process can produce up to 3,700 tons of water per day and can be customized to produce up to 37,000 tons of water per day.
Tripple R Water Recycling™ Industrial Mining Waste and Recycling System
The proposed wastewater treatment system for mining waste will draw wastewater from existing sediment basins, already lined with the geomembrane filter.
This system is based on a 10 ton per hour water output and is scalable depending on the number of mines in a given area.
Diagram below shows a fully automated system with a programmable logic controller (PLC), supervised control and remove data acquisition (SCADA), alarm paging capabilities (for offsite management), and virtual instrumentation.
In this process, the wastewater flows through the treatment system by gravitational movement so minimal energy is required to move the wastewater. The cleaned water can be redirected for immediate reuse in agriculture, pumped into buildings and communities, or further refined in the Triple “R” System for potable water.
*Assumptions: Average Coal Mining Wastewater Analysis (Gansu Huating Mine)
Visible Objects and Suspended Particulate Matter
PH Value 0.006~0.051
CODcr 66.4~131.7
Sulphide 1.09~1.67
Suspensions 360~500
Phenol 8.41~8.55
TN 5.600 ~5.864
Arsenic (ng/L) 0.198~0.220
TP 0.085~0.104
Fecal Coliform 260~393
Tripple R Water Recycling™ Water Collection System
The Rain Water Catchment System is an automated water collection system that collects runoff rain water for reuse as potable water, or for agriculture purposes. A version of this system is part of the patent pending Triple “R System as mentioned in point 3.1.
The rain water basin uses an infrared light sensor to detect rainfall and automatically opens a reverse umbrella top as a catch for rain water. The umbrella top is automatically closed by the same infrared sensor to prevent catchment of debris, and fallen particles. The collected rain water is sent to an ozone generator for purification.
The entire Rain Water Catchment System is powered entirely by wind (with an option to use solar). Methane gas produced by the waste basin is also used to power electric generators that can provide energy source to the system and the community as well.
Tripple R Water Recycling™ Cultivation System
The Cultivation System taps existing water from nearby rivers and lakes by pumping water through vertical turbine pumps into a reverse osmosis (RO) membrane system for preliminary cleaning. The cleaned water is then channeled into a modified version of the Triple “R” System and treated with UV before entering a double media filter.
Diagram 8: Wind/Solar Panels
The water is injected with Kelzyme, a natural soil conditioner and fertilizer. Kelzyme is assimilated from plants and is proven to repress harmful bacteria and fungi in the soil, as well as act as stimuli for growth of helpful bacteria in the soil that release, fix, or create nutrients for crops. The agriculture water is distributed via a pump booster system, through pipelines, and into farms.
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