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No Water No Problems

Published: 16/03/2015

Water - great for drinking but not ideal for engine cooling

First used in engines some 100 years ago, water-based coolants are universally acknowledged to have inherent physical and chemical limitations that effect long-term reliability, increase maintenance costs and often restrict engine performance.

Statistics published by manufacturers and motoring organisations confirm, that water is the root cause for 60% of engine breakdowns and 40% of catastrophic failures. Whilst internal damage goes mostly unnoticed in new engines, the cumulative effects of corrosion, cavitation and cyclic pressurisation become increasingly apparent over time.

For decades engine designers and antifreeze formulators have persisted with water whilst endeavouring to overcome its intrinsic shortcomings - primarily because there has been no viable alternative. Jack Evans, a cooling system designer, also struggled for many years with waters limitations and was determined to find a better solution. Finally, in 1993, Jack formulated a synthetic coolant which eliminated corrosion, erosion, overheating, significantly reduced system pressure and maintained heat transfer equilibrium.

Over the last twenty years Evans waterless engine coolants have been tested and proven by OEM’s, fleet operators, racing teams, professional restorers, plant operators and automotive aficionados to increase reliability and reduce operating costs.  The high boiling point of Evans coolants are also facilitating improvements in engine design, performance and fuel economy.

Evans products are certified non-toxic and documented to last 20 years without need for replacement or top-up. So, if you are considering an environmentally friendly coolant that improves and extends the life of your engine please read on....

• Water-based coolants need to be drained and replenished every 1 to 4 years, because the corrosion inhibitors breakdown* over time (*depletion by oxygen and galvanic activity).

• Evans has been proven to last more than 20 years and could reasonably be considered as ‘The coolant for engine life’. Just imagine, the possibility of an engine with no coolant filler cap and no need to top-up or change the coolant, ever!

• The effectiveness of water-based coolants are subject to their quality, metal compatibility and regular renewal. If the coolant quality is poor (cheap), incompatible or not renewed regularly then corrosion (via oxidation and galvanic activity) will quickly take hold and damage/failure is inevitable. According to the BTC Testing Advisory Group (BP, Shell, Arteco et al) “60% of engine failures are caused by cooling system failure”. So it is reasonable and factual to state ‘the problems associated to water-based coolants are confirmed and extensive’.

• Evans does not oxidise inside an engine or support galvanic activity, effectively eliminating all corrosion – permanently!

• Water freezes at 0ºC and so water-based coolants must contain sufficient antifreeze (usually 50% Toxic Ethylene Glycol) to prevent freezing in winter. If the antifreeze concentration has been depleted or diluted over time then major freeze damage can occur.

• Evans has natural antifreeze properties freezing below -40ºC, does not degrade inside a cooling system and is Non-Toxic. Thus eliminating the worry about topping-up or recharging with antifreeze every winter.  

• Under normal atmospheric conditions water turns in to steam at 100ºC. Mixing ethylene glycol antifreeze with water (50-50) increases the boiling point to 103ºC. Fitting a spring loaded cap can raise system pressure and thus the coolant boiling point. A typical 1 Bar (14.5psi) rated pressure-cap theoretically raises the boiling point of 50-50 coolant to 123ºC, which should be sufficient to prevent boiling. In reality Eddy currents and pressure drops within the cooling system, combined with very high metal temperatures adjacent to the combustion zone often result in boiling coolant and the formation of steam-vapour pockets. Steam is a poor heat transfer medium and localised overheating is often the cause of pre-ignition, detonation, increased fuel consumption and reduced power delivery. Once a steam-vapour pocket is formed it will not readily condense and can lead to full-overheat, piston-liner scuffing, cylinder-head warping and eventually total engine failure. Sounds dramatic, especially when you’re stood next to an engine that ‘lets-go’!

• Evans has a boiling point above 180ºC which ensures it will not boil or turn to vapour inside an engine. By remaining as a liquid under all engine loads effective heat transfer is maintained. Engines filled with Evans usually run 3 - 10ºC hotter than those using water-based coolants, but the overall heat transfer and engine efficiency is improved through the elimination of steam-vapour pockets. The lube-oil temperature also runs 3 – 10ºC hotter with Evans but >500,000 successful conversions confirm this has no detrimental effect.

• Water-based coolants turn to steam-vapour where there is sufficient temperature combined with a drop in pressure. The rapid formation of vapour bubbles inside a liquid is better known as Cavitation. If the local pressure increases rapidly the vapour bubble will collapse with significant force, enough in fact to erode metal. The process of rapid cavitation and bubble collapse adjacent to engine liners is a common cause of erosion – sometimes to the point of catastrophic liner failure. Because car engines liners are usually cast within the main block it is impossible to see if cavitation-erosion is occurring. However large diesel engines are fitted with removable (wet) liners, which are often replaced due to severe erosion - in the form of deep pitting. In an attempt to reduce wet-liner pitting additional nitrite and nitrate inhibitors are often added to heavy-duty coolants. A similar form of cavitation-erosion can occur inside pump chambers (volutes) and the associated impellers. Pump and impeller erosion results in reduced coolant flow rates and an increase in overheating.

• Evans coolants have a much lower vapour pressure compared with water-based coolants, which means they are far less prone to cavitation or causing cavitation-erosion. In a John Deere cavitation test, now adopted by the SAE, Evans reduced liner pitting by 90% in comparison to John Deere’s own heavy duty water based coolant.

• Water generates high vapour pressures as its temperature increases – approx 1 Bar (14.5psi) at 100˚C. These pressures exert internal stress on all cooling system components, especially hoses, pump seals and radiator seams. When the engine cools the pressure reduces. i.e. the process is cyclical and repetitive, which often leads to fatigue and component failure. E.g. burst hoses and burst radiator seams.

• The low vapour pressure generated by Evans coolants makes it possible to (carefully) remove the radiator or expansion bottle cap whilst the engine is running and eliminates internal stresses on hoses, pump seals and radiator seams, thus extending operating life by many years and preventing breakdowns.

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