COOLING & HEATING WATER
Nanoresonance offers chemical-free water treatment solutions
for upgrading cooling and heating systems
Clients and Water Systems
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Power Plants (Electricity and Heat Production)
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Plate heat exchangers for turbine and generator cooling.
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Steam boilers for combined heat and power (CHP).
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Cooling towers for water-based cooling circuits.
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Chemical Manufacturers
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Open atmospheric cooling towers for industrial chemical processes.
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Heat exchangers for maintaining stable temperatures in exothermic reactions.
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District Heating Providers
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Boilers and heat exchangers for residential and commercial district heating.
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Hot water circuits with non-chemical descaling and corrosion control.
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Food and Packaging Industry
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Steam boiler rooms with heat exchangers for production processes.
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Sustainability Impact
Nanoresonance creates measurable contributions to Sustainable Development Goals by increasing the efficiency of cooling and heating water systems.
By changing the thermodynamics of water evaporation and condensation, we affect the Energy Efficiency Ratio (EER).
1. Reduced electricity use by 10 - 30%.
2. Faster heat exchange of water by 5 - 9%.
3. Increased water fluidity by 5 - 7%.
Nature Positive Cleantech
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Reduction of carbon footprint of heating and cooling systems
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Non-chemical water disinfection methods
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Non-chemical antiscaling and anticorrosion solutions:
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No chemical additives required for maintenance
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Processed water remains clean for safe discharge or recycling
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CASE STUDIES
Evaporative Cooling Towers
Example:
The Duslo Chemical Plant in Slovakia upgraded its EVAPCO cooling towers with a 4,000 kW capacity, achieved a 10% increase in Energy Efficiency Ratio (EER), and a 13% reduction in electricity consumption.
Hydraulic Circuit Systems
Example:
At a CHP plant in Slovakia, non-chemical treatment of hydraulic cooling circuits improved pump efficiency by 4-7%, reduced natural gas consumption by 18%, lowered chemical use by 60%, and extended maintenance intervals from 3-day shutdowns twice a year to just once every 2 years with a 3-hour shutdown.
Steam Boilers and Heat Exchangers
Example:
A power plant in Poland, equipped with three steam boilers (85 MW total) and a 6 MW steam turbine, achieved a 3.9% overall increase in efficiency, with a 16.88% increase in electricity production efficiency, reducing coal consumption by 1,803 tons per year and CO2 emissions by 4,244 tons annually.
District Heating Systems
Example:
In a district heating system serving 1,000 apartments in Slovakia, non-chemical descaling of heat exchangers and boilers reduced gas consumption by 18%, electricity consumption by over 20%, cut chemical use by 60%.
Plate Heat Exchangers
Example:
A Power Plant in Poland upgraded its plate heat exchangers for oil cooling of turbine and generator bearings, achieving a 154% improvement in heat transfer efficiency, reducing electricity consumption for circulating pumps, and increasing overall cooling system performance by 2.5 times.
Non-Chemical Microbial Disinfection
Example:
At the Duslo Chemical Plant in Slovakia, non-chemical microbial disinfection was applied to the cooling towers, achieving 100% microbial disinfection without using harmful chemicals.
LABORATORY STUDIES
Thermodynamic parameters
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Measured by the Brno University of Technology, Faculty of Chemistry, in October 2018.
Physical chemistry parameters
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Measured by the Characterization of Colloidal Dispersions (cCD) service, Institute of Advanced Chemistry of Catalonia (IQAC), Spanish National Research Council (CSIC), in May 2024.
Change
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The results indicate an increase (+) or decrease (-) in values following the treatment of water using electromagnetic resonance technologies developed by Nanoresonance.
Economic Models
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ESCO
Clients and the ESCO split the cost savings from an energy efficiency project, allowing clients to benefit from reduced energy expenses with no initial investment.
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Shared-Savings Model
Clients buy equipment with a discount and share cost savings from energy efficiency projects, benefiting from reduced expenses.