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Technology Performance

Liquid SEER's adaptive design allows equipment to run at factory design when not under stressful conditions to prevent the removal of too much heat, which could negatively impact performance. But when conditions create stress, Liquid SEER provides a much needed efficiency boost that allows equipment to excel. Discover the impressive results.


residential AC comparision chart
chiller system BTU increase chart
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Graph A

generator chart b

Graph B



Bryant BH14NB018 14 SEER split system heat pump
In cooling: manufacturer’s spec: 85°F outdoor temp/62°F wet bulb 17,630 BTUs sensible at 1.26 kWh operating at 14 SEER. After application: 81°F outdoor/62°F wet bulb unit produces 25,211 BTUs, (sensible BTUs: 14,652; latent 10,558) at 1.05 kWH.

Improved Liquid SEER performance: 24 SEER

Carrier 50TVA4831TP 14 SEER package heat pump
In cooling: manufacturer’s specs: 110°F outdoor temp/57°F wet bulb 37,950 BTUs sensible at 4.5 kWh. operating at 8.4 SEER. After application 110°F outdoor/56.3°F wet bulb unit produces 48,240 BTUs, (sensible BTUs: 48,038; latent 201) at 4.1 kWh. 

Improved Liquid SEER performance: 12 SEER


Daikin DZ16TC048TCA 17 SEER split system heat pump
In cooling: Manufacturer’s specs: 85°F outdoor temp/63°F wet bulb 47,300 BTUs sensible at 3.25 kWh. operating at  17 SEER. After application 83°F outdoor/63.9°F wet bulb unit produces 59,598 BTUs, (sensible BTUs: 39,251; latent 20,346) at 1.92 kWh.

Improved Liquid SEER performance: 31 SEER



Chiller Service CSM20 20 ton Air-cooled Chiller servicing a VFD System

Pre application vs. post Liquid SEER application

23% BTU/hr increase



Graph A

Temperature Comparison Liquid SEER coating vs. a freshly cleaned radiator running under similar conditions with minimal load

Graph B 
Temperature Comparison between Liquid SEER coating vs. cleaned radiator running under similar conditions with a 14% load increase

Graph C

Temperature Comparison between Liquid SEER coating vs. cleaned radiator running under similar conditions with a 24% load increase

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Graph C


Tough like no other, Liquid SEER has been salt fog tested to ASTM standards exceeding 10,000 hours. It protects against galvanic corrosion and provides UV durability. 


In the past, protection this strong required an expensive and time-consuming factory application. Liquid SEER's speedy and cost-effective one-part system achieves factory results in the field, so you can experience the benefits of Liquid SEER without waiting.

Versatility of application means Liquid SEER can increase the thermal capacity of a variety of materials from ceramics to metals and even plastics.

Not simply an anticorrosion coating or a thermal transfer coating, Liquid SEER boosts capacity and leads to remarkable increases in energy efficiency. Its versatile design as an after-market solution for increased energy efficiency makes Liquid SEER an ideal solution for undersized equipment or equipment derating issues, and commercial energy audits. 


Whether there is a need to increase the efficiency of a thermal capacity process or to remove heat in a process that currently is underperforming, Liquid SEER can help optimize results.

Across a broad spectrum of applications, Liquid SEER is able to optimize thermal transfer and increase BTU output per watt of energy consumed to make equipment run better for less energy and money.


Engineered to be applied aftermarket or during manufacturing for flexibility and to help relieve overtaxed electrical grids in order to provide eco-friendly solutions to people and our planet..Liquid SEER is advancing green building technology in energy efficiency solutions to decrease peak-demand energy usage for residential, commercial and industrial applications.


The applications are nearly limitless. Liquid SEER boosts capacity of thermal transfer devices in equipment such as heat sinks, radiators, coils, air conditioners, motors and other devices enabling them to perform under extreme conditions that would normally cause equipment failure, meaning the technology can increase efficiency and reduce energy consumption across a vast array of processes.

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