TowerMate is a water management system that uses physics rather than chemicals to eliminate scale, corrosion, algae, bacteria and bleed water in cooling towers. It works by pulling water from the cooling tower basin through a strainer, separator, magnetic field generator, biocide generator and back into the tower through eductor nozzles. The system physically alters the water to prevent scale and corrosion and uses ionization to destroy bacteria and algae without chemicals. It provides low maintenance water treatment at a lower cost than other chemical or mechanical alternatives.
A hydroelectric power plant harnesses the kinetic energy of flowing water to generate electricity. It consists of a dam that creates a reservoir of water, turbines that convert the energy of falling water into mechanical energy, and generators that transform mechanical energy into electrical energy. The plant is ideally located near a river in hilly areas where a large dam and reservoir can be built. Hydroelectric power is a renewable source of energy that produces no emissions. However, it has high upfront costs and power generation depends on water availability, which can fluctuate with weather patterns.
Effective water management is critical to both open-pit and sub-surface mining operations. Mine dewatering is an essential part of resource extraction, as it lowers the water table around the mine or quarry. Effectively managed dewatering processes typically employ continuous water level monitoring.
This document discusses elements to consider in mine dewatering management, including regulations, data management, operation, and maintenance. It emphasizes the importance of collecting accurate water data through proper installation and calibration of flow meters, and using a water balance to optimize the system. Regular monitoring can identify well failures like one that occurred due to long-term decline in pump performance, possibly caused by pumping sand over time. Proper data collection and analysis are key to efficient dewatering system design, troubleshooting, and cost reduction.
This document provides information on various water softener models, including their specifications. It discusses how water softeners work by exchanging hardness ions for sodium ions using resin and salt regeneration. The models vary in size, flow rates, and controls. They are suitable for residential and commercial use and remove scale-forming hardness minerals from water.
Electrical Energy Extraction of Brine Treatment Using Reverse Electrodialysi...Endy Nugroho
This document describes a project to extract electrical energy from brine treatment using reverse electrodialysis (RED). The project aims to utilize the concentration gradient between high and low salinity solutions to generate electricity via diffusion through ion exchange membranes. Key points discussed include:
- The scientific principles of RED based on Fick's laws of diffusion and Nernst equation.
- The proposed system setup using platinum/iridium electrodes and a hexacyanoferrate redox electrolyte between cation and anion exchange membranes.
- Results showing the experimental voltage matches theoretical values and optimization of current flow.
- Applications including desalination energy reduction and portable emergency power, with limitations around membrane costs and need for further
One of the newest materials in the construction of water structures in recent years is the rubber material that is widely used in the construction of dams or short dams. In rubber dams, the remarkable flexibility of materials against external factors, compatible with the environment, simplicity of design, short time of building, safety and stability of these structures, such dams than rigid, simplicity and ease of use and ultimately reducing operating costs caused has been used in large and small water projects. Due to the limited information in the field of rubber dams, this article provides the possibility of rubber dams introducing, how to design, building and maintaining.
This presentation discusses ground source energy systems and how Ground Source Consult Ltd designed an innovative single well open loop system for the Kering Group UK Head Office building at 6 Carlos Place in London. The system allows the building to be heated and cooled using a single borehole that both extracts and reinjects groundwater. Through geological analysis, 3D thermal modeling, and the use of an inflatable packer tool, the system was designed to circulate groundwater without thermal interference between the extraction and reinjection zones. The unique system provides over 40% savings on capital costs while allowing for efficient heating and cooling of the building in a sensitive urban location.
A hydroelectric power plant harnesses the kinetic energy of flowing water to generate electricity. It consists of a dam that creates a reservoir of water, turbines that convert the energy of falling water into mechanical energy, and generators that transform mechanical energy into electrical energy. The plant is ideally located near a river in hilly areas where a large dam and reservoir can be built. Hydroelectric power is a renewable source of energy that produces no emissions. However, it has high upfront costs and power generation depends on water availability, which can fluctuate with weather patterns.
Effective water management is critical to both open-pit and sub-surface mining operations. Mine dewatering is an essential part of resource extraction, as it lowers the water table around the mine or quarry. Effectively managed dewatering processes typically employ continuous water level monitoring.
This document discusses elements to consider in mine dewatering management, including regulations, data management, operation, and maintenance. It emphasizes the importance of collecting accurate water data through proper installation and calibration of flow meters, and using a water balance to optimize the system. Regular monitoring can identify well failures like one that occurred due to long-term decline in pump performance, possibly caused by pumping sand over time. Proper data collection and analysis are key to efficient dewatering system design, troubleshooting, and cost reduction.
This document provides information on various water softener models, including their specifications. It discusses how water softeners work by exchanging hardness ions for sodium ions using resin and salt regeneration. The models vary in size, flow rates, and controls. They are suitable for residential and commercial use and remove scale-forming hardness minerals from water.
Electrical Energy Extraction of Brine Treatment Using Reverse Electrodialysi...Endy Nugroho
This document describes a project to extract electrical energy from brine treatment using reverse electrodialysis (RED). The project aims to utilize the concentration gradient between high and low salinity solutions to generate electricity via diffusion through ion exchange membranes. Key points discussed include:
- The scientific principles of RED based on Fick's laws of diffusion and Nernst equation.
- The proposed system setup using platinum/iridium electrodes and a hexacyanoferrate redox electrolyte between cation and anion exchange membranes.
- Results showing the experimental voltage matches theoretical values and optimization of current flow.
- Applications including desalination energy reduction and portable emergency power, with limitations around membrane costs and need for further
One of the newest materials in the construction of water structures in recent years is the rubber material that is widely used in the construction of dams or short dams. In rubber dams, the remarkable flexibility of materials against external factors, compatible with the environment, simplicity of design, short time of building, safety and stability of these structures, such dams than rigid, simplicity and ease of use and ultimately reducing operating costs caused has been used in large and small water projects. Due to the limited information in the field of rubber dams, this article provides the possibility of rubber dams introducing, how to design, building and maintaining.
This presentation discusses ground source energy systems and how Ground Source Consult Ltd designed an innovative single well open loop system for the Kering Group UK Head Office building at 6 Carlos Place in London. The system allows the building to be heated and cooled using a single borehole that both extracts and reinjects groundwater. Through geological analysis, 3D thermal modeling, and the use of an inflatable packer tool, the system was designed to circulate groundwater without thermal interference between the extraction and reinjection zones. The unique system provides over 40% savings on capital costs while allowing for efficient heating and cooling of the building in a sensitive urban location.
* Catchment area = 200 sq.km = 200,000,000 sq.m
* Average rainfall = 130 cm = 1.3 m
* Runoff = 70% of rainfall = 0.7 * 1.3 = 0.91 m
* Water available per year = Rainfall * Runoff * Catchment area
= 1.3 * 0.91 * 200,000,000 = 234,000,000 cubic meters
* Head available = 380 m
* Density of water = 1000 kg/cubic meter
* Gravity acceleration = 10 m/sec^2
* Power = Mass of water * Gravity height * Head / Time
= 234,000,000 * 1000 * 10 *
This document provides an overview of hydro power plant components and types. It discusses the three types of power houses: surface, semi-underground, and underground. Surface power houses have components on the surface but are limited by topography. Semi-underground power houses combine advantages of surface and underground. Underground power houses are located entirely inside mountains with access tunnels. The document also summarizes the main components of hydro power stations including dams/barrages, water conductor systems, and power houses as well as different types of hydro power projects.
An overview of Chronomite Laboratories, a member of Morris Group International. Chronomite Laboratories Inc. is the innovative leader in point-of-use tankless water heaters for commercial, industrial, institutional and residential installations.
For more information, please visit www.chronomite.com
This document discusses various types of water distribution systems including layouts for distribution mains, sub-mains and branches. It also describes different types of distribution systems for buildings such as direct upfeed and indirect downfeed systems. Maintenance of distribution systems and water quality considerations are covered. The document also summarizes waste disposal and sewage treatment methods as well as security systems commonly used in high rise buildings.
This document provides information on various pool cleaning products including pool cleaners, leaf skimmers, brushes, hoses, handles, thermometers, maintenance kits, semi-automatic and automatic pool cleaners from different brands. It lists the product codes, specifications, features, and benefits of each item. The automatic pool cleaners section provides details on models from Battista, Dolphin, and Aqua Chrono brands highlighting their cleaning cycles, motor voltages, dimensions, and warranties.
This document discusses limescale buildup in water pipes and fittings. It introduces the Aqua Power Chalk Magnet as a solution. The magnet works by restructuring calcium crystals in water so that limescale no longer builds aggressively. Using the magnet allows minerals to remain in water while lime can be more easily removed. The magnet offers benefits like reduced cleaning costs and no maintenance. It can fit all pipe types and functions without chemicals.
Introduction to advanced electrodialysis reversal (EDR). Patented advantages over traditional electrodialysis enable advanced industrial wastewater treatment applications. Advanced IonFlux ion exchange membranes enable selective recoveries and separations, treatment of scaling wastewaters, ammonia treatment, treatment of produced waters, and brine concentrating systems. ElectroChem advanced electrodialysis can hybridize with reverse osmosis (RO) to recover more freshwater and reduce brine discharge volumes.
http://www.saltworkstech.com/electrochem-advanced-electrodialysis/
IES Academy Fluid Machine by S K Mondal.pptSubbuSuni
This document provides an overview of the key components of hydroelectric power projects. It explains that hydroelectric power plants capture the energy of falling water to generate electricity using a turbine to convert kinetic energy to mechanical energy, and a generator to convert that to electrical energy. The major components include a dam/reservoir to create head, a water intake to divert water, a penstock to transport water to the powerhouse under pressure, and a powerhouse containing a turbine, generator, and other equipment to convert the energy and produce electricity. It then provides more details on components like trash racks, surge shafts, penstocks, spillways, desilting basins, draft tubes, and the turbine-generator assembly.
This document summarizes an ultraviolet water purifier model BIO-1.5 that uses ultraviolet lamps to disinfect water without heat or chemicals. It is a compact 1.5 gallon per minute purifier that also includes sediment and carbon filters. The document provides details on its operation, installation, maintenance, optional accessories, and compares it to other ultraviolet water purification systems.
This document describes a project to develop an automated ice defrost system for vacuum insulated evaporator (VIE) tanks. The system aims to improve VIE pipeline maintenance by detecting ice formation using sensors and activating a water pump to remove the ice before it becomes excessive. It uses an ESP8266 microcontroller, ultrasonic distance sensor, temperature sensor, water pump, and connects to Blynk software via WiFi to monitor the pipeline condition remotely. The system is designed to make maintenance more efficient by automatically removing ice without requiring constant human attendance. It was tested successfully and future recommendations include using more accurate sensors and constructing a full-scale prototype.
This document provides an overview of the Suratgarh Super Thermal Power Plant located in Kota, India. It discusses the plant's layout and key components including 5 power generation units with a total capacity of 1500MW, a coal handling plant, water treatment facilities, boilers, turbines, generators, transformers, switchyards, ash handling, electrostatic precipitators, cooling towers and the control room. The presentation concludes with the student expressing their gratitude for the opportunity to tour the large-scale facility and gain practical engineering insights.
Ocean Thermal Energy Conversion (OTEC) is a marine renewable energy technology that converts solar radiation to electrical power by the temperature difference between the deep cold ocean water and warm tropical surface water.
Underwater windmills, also known as tidal turbines, operate similar to traditional wind turbines but are submerged and use kinetic energy from tidal currents rather than air. They consist of rotor blades connected to a gearbox and generator to produce electricity. While initially expensive to construct and maintain underwater, they provide a renewable and reliable source of energy since tidal patterns are predictable. Research continues to develop more efficient turbine designs and reduce costs to make underwater wind power more competitive with other energy sources.
This document provides an overview of ocean and geothermal energy. It describes three types of ocean thermal energy conversion (OTEC) - closed loop, open loop, and hybrid loop. It also discusses wave, tidal, and geothermal energy. For geothermal, it explains the three main types of power plants - dry steam, flash steam, and binary cycle. It outlines some key advantages and disadvantages of these renewable energy sources. The conclusion states that OTEC and geothermal energy have the potential to provide clean, reliable energy while reducing emissions.
This document summarizes the details of two unused stainless steel evaporative condensers. Each unit is rated at 827 tons and was manufactured by Evapco with model ATW-207C. The units feature stainless steel construction, enclosed fan motors, quick connect piping, sloped access ladders, and elliptical coil designs. Additional details are provided on optional accessories and each unit's dimensions and electrical specifications.
This document describes the key components of a small hydropower plant. It includes diagrams and descriptions of the trash rack, intake channel, desilting tank, power channel, forebay tank, penstock, hydro-turbines, generator, switchgear, transformers, and control panels. It provides details on the purpose and functioning of each component in the hydropower generation process.
Wastewater Generation and Management in Underground Utility Vaults and ManholesC.I.Agent Solutions
Underground utility networks face a number of maintenance challenges, including chronic water intrusion, debris and sediment build-up, and the presence of oil and sheen. Dewatering methods for vaults and manholes are forced to evolve with the Increasing environmental regulations in storm water management, but there are risks and tradeoffs involved. Passive and active protection systems are accessible and can be easily implemented as solutions to certain underground challenges, as illustrated by Dan Parker during this presentation at the USWAG 2015 Decommissioning and Low-Volume Waste Committee Workshop in Detroit, MI.
Find more solutions to your underground utility vault and manhole challenges at http://www.ciagent.com.
Image result for hydro power plant in india
India is the 7th largest producer of hydroelectric power in the world ranking third worldwide in the total number of dams. As of 31 March 2016, India's installed utility-scale hydroelectric capacity was 42,783 MW, or 14.35% of its total utility power generation capacity.
Hydroelectric power is power harnessed from converting the energy coming from running water. The mechanical energy is transferred from a rotating turbine to a generator, which produces energy. Hydro power is a shorthand term that can be used in place of hydroelectric power, both mechanical and electric.
Axess1 Group provides energy and water conservation technologies for the HVAC industry. Their exclusive platforms and solutions can reduce energy costs by 20-50% and extend equipment life by 30%. Their technologies include Chill-n-Save for HVAC chillers and cooling towers, engineered magnets, and TowerMate for cooling towers to conserve water and energy. Axess1 serves commercial, industrial, and other sectors with diverse conservation solutions.
Evaporcool Case Study (500 Ton Rtac) (Roi Only))mphmark
The document analyzes the performance of two 500-ton chillers, one with the Evaporcool system installed (the test unit) and one without (the comparison unit). Testing found that the test unit with Evaporcool operated with an average efficiency of 1.21 kW/ton while the comparison unit operated at 1.32 kW/ton, showing an 11% improvement with Evaporcool. The efficiency gain was greatest on hotter days with higher cooling degree days and lower when it rained.
* Catchment area = 200 sq.km = 200,000,000 sq.m
* Average rainfall = 130 cm = 1.3 m
* Runoff = 70% of rainfall = 0.7 * 1.3 = 0.91 m
* Water available per year = Rainfall * Runoff * Catchment area
= 1.3 * 0.91 * 200,000,000 = 234,000,000 cubic meters
* Head available = 380 m
* Density of water = 1000 kg/cubic meter
* Gravity acceleration = 10 m/sec^2
* Power = Mass of water * Gravity height * Head / Time
= 234,000,000 * 1000 * 10 *
This document provides an overview of hydro power plant components and types. It discusses the three types of power houses: surface, semi-underground, and underground. Surface power houses have components on the surface but are limited by topography. Semi-underground power houses combine advantages of surface and underground. Underground power houses are located entirely inside mountains with access tunnels. The document also summarizes the main components of hydro power stations including dams/barrages, water conductor systems, and power houses as well as different types of hydro power projects.
An overview of Chronomite Laboratories, a member of Morris Group International. Chronomite Laboratories Inc. is the innovative leader in point-of-use tankless water heaters for commercial, industrial, institutional and residential installations.
For more information, please visit www.chronomite.com
This document discusses various types of water distribution systems including layouts for distribution mains, sub-mains and branches. It also describes different types of distribution systems for buildings such as direct upfeed and indirect downfeed systems. Maintenance of distribution systems and water quality considerations are covered. The document also summarizes waste disposal and sewage treatment methods as well as security systems commonly used in high rise buildings.
This document provides information on various pool cleaning products including pool cleaners, leaf skimmers, brushes, hoses, handles, thermometers, maintenance kits, semi-automatic and automatic pool cleaners from different brands. It lists the product codes, specifications, features, and benefits of each item. The automatic pool cleaners section provides details on models from Battista, Dolphin, and Aqua Chrono brands highlighting their cleaning cycles, motor voltages, dimensions, and warranties.
This document discusses limescale buildup in water pipes and fittings. It introduces the Aqua Power Chalk Magnet as a solution. The magnet works by restructuring calcium crystals in water so that limescale no longer builds aggressively. Using the magnet allows minerals to remain in water while lime can be more easily removed. The magnet offers benefits like reduced cleaning costs and no maintenance. It can fit all pipe types and functions without chemicals.
Introduction to advanced electrodialysis reversal (EDR). Patented advantages over traditional electrodialysis enable advanced industrial wastewater treatment applications. Advanced IonFlux ion exchange membranes enable selective recoveries and separations, treatment of scaling wastewaters, ammonia treatment, treatment of produced waters, and brine concentrating systems. ElectroChem advanced electrodialysis can hybridize with reverse osmosis (RO) to recover more freshwater and reduce brine discharge volumes.
http://www.saltworkstech.com/electrochem-advanced-electrodialysis/
IES Academy Fluid Machine by S K Mondal.pptSubbuSuni
This document provides an overview of the key components of hydroelectric power projects. It explains that hydroelectric power plants capture the energy of falling water to generate electricity using a turbine to convert kinetic energy to mechanical energy, and a generator to convert that to electrical energy. The major components include a dam/reservoir to create head, a water intake to divert water, a penstock to transport water to the powerhouse under pressure, and a powerhouse containing a turbine, generator, and other equipment to convert the energy and produce electricity. It then provides more details on components like trash racks, surge shafts, penstocks, spillways, desilting basins, draft tubes, and the turbine-generator assembly.
This document summarizes an ultraviolet water purifier model BIO-1.5 that uses ultraviolet lamps to disinfect water without heat or chemicals. It is a compact 1.5 gallon per minute purifier that also includes sediment and carbon filters. The document provides details on its operation, installation, maintenance, optional accessories, and compares it to other ultraviolet water purification systems.
This document describes a project to develop an automated ice defrost system for vacuum insulated evaporator (VIE) tanks. The system aims to improve VIE pipeline maintenance by detecting ice formation using sensors and activating a water pump to remove the ice before it becomes excessive. It uses an ESP8266 microcontroller, ultrasonic distance sensor, temperature sensor, water pump, and connects to Blynk software via WiFi to monitor the pipeline condition remotely. The system is designed to make maintenance more efficient by automatically removing ice without requiring constant human attendance. It was tested successfully and future recommendations include using more accurate sensors and constructing a full-scale prototype.
This document provides an overview of the Suratgarh Super Thermal Power Plant located in Kota, India. It discusses the plant's layout and key components including 5 power generation units with a total capacity of 1500MW, a coal handling plant, water treatment facilities, boilers, turbines, generators, transformers, switchyards, ash handling, electrostatic precipitators, cooling towers and the control room. The presentation concludes with the student expressing their gratitude for the opportunity to tour the large-scale facility and gain practical engineering insights.
Ocean Thermal Energy Conversion (OTEC) is a marine renewable energy technology that converts solar radiation to electrical power by the temperature difference between the deep cold ocean water and warm tropical surface water.
Underwater windmills, also known as tidal turbines, operate similar to traditional wind turbines but are submerged and use kinetic energy from tidal currents rather than air. They consist of rotor blades connected to a gearbox and generator to produce electricity. While initially expensive to construct and maintain underwater, they provide a renewable and reliable source of energy since tidal patterns are predictable. Research continues to develop more efficient turbine designs and reduce costs to make underwater wind power more competitive with other energy sources.
This document provides an overview of ocean and geothermal energy. It describes three types of ocean thermal energy conversion (OTEC) - closed loop, open loop, and hybrid loop. It also discusses wave, tidal, and geothermal energy. For geothermal, it explains the three main types of power plants - dry steam, flash steam, and binary cycle. It outlines some key advantages and disadvantages of these renewable energy sources. The conclusion states that OTEC and geothermal energy have the potential to provide clean, reliable energy while reducing emissions.
This document summarizes the details of two unused stainless steel evaporative condensers. Each unit is rated at 827 tons and was manufactured by Evapco with model ATW-207C. The units feature stainless steel construction, enclosed fan motors, quick connect piping, sloped access ladders, and elliptical coil designs. Additional details are provided on optional accessories and each unit's dimensions and electrical specifications.
This document describes the key components of a small hydropower plant. It includes diagrams and descriptions of the trash rack, intake channel, desilting tank, power channel, forebay tank, penstock, hydro-turbines, generator, switchgear, transformers, and control panels. It provides details on the purpose and functioning of each component in the hydropower generation process.
Wastewater Generation and Management in Underground Utility Vaults and ManholesC.I.Agent Solutions
Underground utility networks face a number of maintenance challenges, including chronic water intrusion, debris and sediment build-up, and the presence of oil and sheen. Dewatering methods for vaults and manholes are forced to evolve with the Increasing environmental regulations in storm water management, but there are risks and tradeoffs involved. Passive and active protection systems are accessible and can be easily implemented as solutions to certain underground challenges, as illustrated by Dan Parker during this presentation at the USWAG 2015 Decommissioning and Low-Volume Waste Committee Workshop in Detroit, MI.
Find more solutions to your underground utility vault and manhole challenges at http://www.ciagent.com.
Image result for hydro power plant in india
India is the 7th largest producer of hydroelectric power in the world ranking third worldwide in the total number of dams. As of 31 March 2016, India's installed utility-scale hydroelectric capacity was 42,783 MW, or 14.35% of its total utility power generation capacity.
Hydroelectric power is power harnessed from converting the energy coming from running water. The mechanical energy is transferred from a rotating turbine to a generator, which produces energy. Hydro power is a shorthand term that can be used in place of hydroelectric power, both mechanical and electric.
Similar to TowerMate Presentation Full Website (20)
Axess1 Group provides energy and water conservation technologies for the HVAC industry. Their exclusive platforms and solutions can reduce energy costs by 20-50% and extend equipment life by 30%. Their technologies include Chill-n-Save for HVAC chillers and cooling towers, engineered magnets, and TowerMate for cooling towers to conserve water and energy. Axess1 serves commercial, industrial, and other sectors with diverse conservation solutions.
Evaporcool Case Study (500 Ton Rtac) (Roi Only))mphmark
The document analyzes the performance of two 500-ton chillers, one with the Evaporcool system installed (the test unit) and one without (the comparison unit). Testing found that the test unit with Evaporcool operated with an average efficiency of 1.21 kW/ton while the comparison unit operated at 1.32 kW/ton, showing an 11% improvement with Evaporcool. The efficiency gain was greatest on hotter days with higher cooling degree days and lower when it rained.
Pre Cool Trane Ga Sws Univ Install For Websitemphmark
Georgia Southwestern State University was having issues with a Carrier air cooled chiller overheating and compressor failures. An evaporative pre-cooling system was installed on the chiller's condenser to lower temperatures and improve performance. On the first day, supply chilled water temperatures dropped 10 degrees and room temperatures decreased, allowing all compressors to run smoothly without overheating. Head pressures and noise were reduced, and ongoing monitoring will track ongoing impacts of the system.
To address scaling issues caused by hard water, the design team worked with water treatment experts to develop a filter using polyacrylate additive. This additive prevents the formation of scale by distorting the geometry of calcium and mineral molecules so they cannot bond together. A low-volume delivery system was created to introduce this additive into the small amount of water used, changing the cartridge every 3 months for under $100 per year. After solving the scaling problem, the company was able to offer an energy-saving air conditioner with a 100% money back guarantee.
CoolnSave Technology For Commercial and Residentialmphmark
Greenway Design Group develops and installs automatic pre-cool solutions for HVAC systems to reduce energy consumption and costs. Their Cool-n-Save systems inject micro mist into incoming air to lower temperatures by 30 degrees, improving HVAC efficiency. Studies show the systems can reduce energy use by up to 30% and provide quick returns on investment within a few months. Commercial systems are customized installations managed by professionals, while residential kits are do-it-yourself with all needed parts.
The document presents the Access-2-Energy Triple Play Sustainability System from Axess1 Group for trucking and automotive industries. The system features three components: 1) Engineered Magnets that guarantee 10-20% fuel economy, 2) IceCOLD synthetic refrigerant for 5% added fuel economy and smoother HVAC, and 3) Oil Purification Systems to extend oil changes to 120,000 miles guaranteed while lowering engine friction and wear. The system aims to provide cost-effective energy conservation and sustainability solutions for industries.
4. TowerMate ® H OW T OWER M ATE W ORKS The side-stream pump pulls water from the cooling tower basin Water passes through a visible strainer basket to remove large debris
5. H OW T OWER M ATE W ORKS The side-stream pump pulls water from the cooling tower basin Water passes through a visible strainer basket to remove large debris Water is sent to the Separator Synergism begins TowerMate ®
6.
7. • Prevents sludge accumulation • Replaces “blow-down” or “bleed” • Removes particles down to 40 microns • Contains no filter medium or moving parts • Continual removal of dirt, removed scale, etc. C ENTRIFUGAL S EPARATOR TowerMate ®
8.
9. H OW T OWER M ATE W ORKS Filtered water exits the Separator and is forced through the first Magnetic Field Generator TowerMate ®
10. H OW T OWER M ATE W ORKS Filtered water exits the Separator and is forced through the first Magnetic Field Generator TowerMate ® MFG
11. • Prevents scale formation • De-scales existing surfaces and piping • Inhibits both general and galvanic corrosion • Increases heat exchanger efficiency 10-15% M AGNETIC F IELD G ENERATOR TowerMate ®
12. M AGNETIC F IELD G ENERATOR Flux Lines • When the electrons of the water experience the excitation of the flux lines, the physical properties of the water and its constituents change • Water experiences increased density, decreased viscosity, and reduced surface tension • Molecular intersection of water and flux lines excites electrons, similar to generating electricity TowerMate ®
13. M AGNETIC F IELD G ENERATOR • Mono-pole permanent magnets force flux lines to the center of the pipe • The excited minerals experience re-crystallization and precipitation • Once the minerals precipitate, then de-scaling occurs, which increases piping efficiency TowerMate ®
14. M AGNETIC F IELD G ENERATOR • Mono-pole permanent magnets force flux lines to the center of the pipe • The excited minerals experience re-crystallization and precipitation • Once the minerals precipitate, then de-scaling occurs, which increases piping efficiency TowerMate ®
15. H OW T OWER M ATE W ORKS Next, physically altered water is forced through the Biocide Generator (BG) The de-scaling properties of the magnetically treated fluid help to keep the BG electrodes clean TowerMate ® MFG BG
16. B IOCIDE G ENERATOR • Eliminates the need for chemicals • Utilizes a proprietary ionization system • Incorporates patented NASA technology • Guaranteed to destroy algae, bacteria, and viruses, including Legionella and Anthrax TowerMate ®
17. I ONIZATION • Patented by NASA in 1960s • NASA used technology to disinfect water for astronauts during Apollo space missions • By 1980, ionization techniques were being used to sanitize swimming pools, spas, fountains, cooling towers, and many other recirculating water systems • The Biocide Generator incorporates this technology in a proprietary manner TowerMate ®
18. B IOCIDE G ENERATOR • Releases certain biocide types of metal ions • Ions attract to all particles in water since water has a natural net negative charge • One type kills algae and fungus through cell membrane disruption • The other kills virus and bacteria through metabolism disruption • Affected particles become larger and heavier TowerMate ®
19. E DUCTOR N OZZLE S YSTEM Water is now ready to work, and is forced away from TowerMate, back to the basin, and through the Eductor Nozzles Eductors multiply water flow 5:1 and “sweep the floor,” keeping precipitates and debris suspended, allowing the Separator to collect them TowerMate ®
20. E DUCTOR N OZZLE S YSTEM Water is now ready to work, and is forced away from TowerMate, back to the basin, and through the Eductor Nozzles Eductors multiply water flow 5:1 and “sweep the floor,” keeping precipitates and debris suspended, allowing the Separator to collect them TowerMate ®
23. E DUCTOR N OZZLE S YSTEM The Eductor assembly is designed to clip on the manifold fabricated in the tower basin for ease of installation Once installed, the Eductor can swivel, allowing it to be pointed in the optimal direction, then locked in place TowerMate ®
24. E DUCTOR N OZZLE S YSTEM The Eductor assembly is designed to clip on the manifold fabricated in the tower basin for ease of installation Once installed, the Eductor can swivel, allowing it to be pointed in the optimal direction, then locked in place TowerMate ®
26. TowerMate ® YouTube Video (click link) http://www.youtube.com/watch?v=02U3tZUqIG4&feature=player_embedded
27. F EATURES & B ENEFITS • Very low maintenance • Reduces energy and water/sewer costs • Eliminates chemicals—environmentally friendly • Simple side-stream installation is non-intrusive • Can be installed on any open-loop evaporative cooling water system or recirculating fluid system TowerMate ®
28. T HE B EST A LTERNATIVE • Lower capital cost than ozone without the corrosive tendencies and ongoing maintenance • Much lower operating cost than reverse osmosis without the water waste • The only alternative to chemicals that stands on its own, needing no chemical supplements or human intervention • No environmental impact TowerMate ®
29. A PPLICATIONS • Evap. Cooling Towers • Fluid Cooling Towers • Bottle Warmers • Air Washers • Weld Water TowerMate ®
30. C URRENT M ODELS • TM 200 E - Up to 200 tons of cooling or 600 gpm • TM 500 E – Up to 500 tons of cooling or 1500 gpm • TM1100 E – Up to 1100 tons of cooling or 3300 gpm • TM2200 E – Up to 2200 tons of cooling or 6600 gpm *E indicates Eductor Nozzle Sweeper System TowerMate ®
31. S PECIAL M ODELS • TowerMate I-Zone ® - Contains ozonation components to help enhance the primary system for special manufacturing applications such as bottling • TowerMate GEN-2 ® - A completely automated system with computer monitoring capabilities for water content levels and integrated software for facility maintenance engineers TowerMate ®
32. • Allow 4-6 Weeks For Delivery • Shipping/Handling & Taxes Not Included • Capable of Producing Mass Quantities • Unlimited Assistance With Quoting Systems • Multiple Leasing Options Available M ANUFACTURING TowerMate ®