Evaporator (marine)
Encyclopedia
An evaporator, distiller or distilling apparatus is a piece of ship's equipment used to produce fresh drinking water
from sea water by distillation
. As fresh water is bulky, may spoil in storage, and is an essential supply for any long voyage, the ability to produce more in mid-ocean is clearly important for any ship.
Although distillers are often associated with steam ships, their use pre-dates this. Nelson
's was fitted with distilling apparatus in her galley
. Distilling apparatus was only fitted to larger warships and some exploratory ships at this time: a warship's large crew needed more water and they could ill-afford the space to carry enough. Cargo ships, and their smaller crews, merely carried their supplies with them.
, their boilers also required a continual supply of feedwater
.
Early boilers used seawater directly, but this gave problems with the build-up of brine
and scale. For efficiency, as well as conserving feedwater, marine engines have usually been condensing engines. By 1865, the use of an improved surface condenser permitted the use of fresh water feed, as the additional feedwater now required was only the small amount required to make up for losses, rather than the total passed through the boiler. Despite this, a large warship could still require up to 100 tons of fresh water makeup to the feedwater system, when under full power. Attention was also paid to de-aereating
feedwater, to further reduce boiler corrosion.
The distillation system for boiler feedwater at this time was usually termed an evaporator
, partly to distinguish it from a separate system or distiller used for drinking water. Separate systems were often used, especially in early systems, owing to the problem of contamination from oily lubricants in the feedwater system and because of the greatly different capacities required in larger ships. In time, the two functions became combined and the two terms were applied to the separate components of the system.
s and used a simple iron box in the paddle boxes, cooled by water splash. A steam supply direct from the boiler, avoiding the engine and its lubricants, was led to them. With the development of steam heating jackets around the cylinders of engines such as the trunk engine, the exhaust from this source, again unlubricated, could be condensed.
. The distillate from this vessel then passes to an adjacent vessel, the distilling condenser. As these evaporators used a 'clean' seawater supply directly, rather than contaminated water from the boiler circuit, they could be used to supply both feedwater and drinking water. These double distillers appeared around 1884. For security against failure, ships except the smallest were fitted with two sets.
, is for a vertical cylindrical drum, heated by steam-carrying drowned coils in the lower portion. As they are entirely submerged, they avoid the most active region for the deposition of scale, around the waterline. Each coil consists of one or two spirals in a flat plane. Each coil is easily removed for cleaning, being fastened by individual pipe unions through the side of the evaporator. A large door is also provided, allowing the coils to be removed or replaced. Cleaning may be carried out mechanically, with a manual scaling hammer. This also has a risk of mechanical damage to the tubes, as the slightest pitting tends to act as a nucleus for scale or corrosion. It is also common practice to break light scaling free by thermal shock, by passing steam through the coils without cooling water present or by heating the coils, then introducing cold seawater.
Despite the obvious salinity of seawater, salt
is not a problem for deposition until it reaches the saturation concentration. As this is around seven times that of seawater and evaporators are only operated to a concentration of two and a half times, this is not a problem in service.
A greater problem for scaling is the deposition of calcium sulphate. The saturation point for this compound decreases with temperature above 60°C, so that beginning from around 90°C a hard and tenuous deposit is formed.
To further control scale formation, equipment may be provided to automatically inject a weak citric acid
solution into the seawater feed. The ratio is 1:1350, by weight of seawater.
this will be at a limit of 100°C), which may then have an efficiency of 0.87 kg of feedwater produced for each kg of steam supplied.
If condenser vacuum is increased to its maximum, evaporator temperature may be reduced to around 72°C. Efficiency increases until the mass of feedwater produced almost equals that of the supplied steam, although production is now restricted to 0.86 of the previous maximum.
Evaporators are generally installed as a set, where two evaporators are coupled to a single distiller. For reliability, large ships will then have a pair of these sets. It is possible to arrange these sets of evaporators in either parallel or in series, for either maximum or most efficient production. This arranges the two evaporators so that the first operates at atmospheric pressure and high temperature (the maximum output case), but then uses the resultant hot output from the first evaporator to drive a second, running at maximum vacuum and low temperature (the maximum efficiency case). The overall output of feedwater may exceed the weight of steam first supplied, as up to 1.6 times as much. Capacity is however reduced, to 0.72 times the maximum.
for brine was driven from the rotary shaft.
chamber, where it 'flashes' into pure water vapour. This is then condensed for further use.
As the use of vacuum reduces the vapour pressure, the seawater need only be raised to a temperature of 77 °C (170.6 °F).A temperature of at least 71 °C (159.8 °F) is required, for sterilisation purposes. Both evaporator and distiller are combined into a single chamber, although most plants use two joined chambers, worked in series. The first chamber is worked at 23.5 inHg vacuum, the second at 26-27 inHg. Seawater is supplied to the distiller by a pump at around 20 psi. The cold seawater passes through a condenser coil in the upper part of each chamber before being heated by steam in an external feedwater heater. The heated seawater enters the lower part of the first chamber, then drains over a weir and passes to the second chamber, encouraged by the differential vacuum between them. The brine produced by a flash distiller is only slightly concentrated and is pumped overboard continuously.
Fresh water vapour rises through the chambers and is condensed by the seawater coils. Baffles and catchment trays capture this water in the upper part of the chamber. Vacuum itself is maintained by steam ejectors.
The advantage of the flash distiller over the compound evaporator is its greater operating efficiency, in terms of heat supplied. This is due to working under vacuum, thus low temperature, and also the regenerative use of the condenser coils to pre-heat the seawater feed.
A limitation of the flash distiller is its sensitivity to seawater inlet temperature, as this affects the efficiency of the condenser coils. In tropical waters, the distiller flowrate must be throttled to maintain effective condensation. As these systems are more modern, they are generally fitted with an electric salinometer
and some degree of automatic control.
-powered motorships do not use steam boilers as part of their main propulsion system and so may not have steam supplies available to drive evaporators. Some do, as they use auxiliary boilers for non-propulsion tasks such as this. Such boilers may even be heat-recovery boilers that are heated by the engine exhaust.
Where no adequate steam supply is available, a vapour-compression distiller is used instead. This is driven mechanically, either electrically or by its own diesel engine.
Seawater is pumped into an evaporator, where it is boiled by a heating coil. Vapour produced is then compressed, raising its temperature. This heated vapour is used to heat the evaporator coils. Condensate from the coil outlet provides the fresh water supply. To start the cycle, an electric pre-heater is used to heat the first water supply. The main energy input to the plant is in mechanically driving the compressor, not as heat energy.
Both the fresh water production and the waste brine from the evaporator are led through an output cooler. This acts as a heat exchanger
with the inlet seawater, pre-heating it to improve efficiency. The plant may operate at either a low pressure or slight vacuum, according to design. As the evaporator works at pressure, not under vacuum, boiling may be violent. To avoid the risk of priming
and a carry over of saltwater into the vapour, the evaporator is divided by a bubble cap separator.
Drinking water
Drinking water or potable water is water pure enough to be consumed or used with low risk of immediate or long term harm. In most developed countries, the water supplied to households, commerce and industry is all of drinking water standard, even though only a very small proportion is actually...
from sea water by distillation
Distillation
Distillation is a method of separating mixtures based on differences in volatilities of components in a boiling liquid mixture. Distillation is a unit operation, or a physical separation process, and not a chemical reaction....
. As fresh water is bulky, may spoil in storage, and is an essential supply for any long voyage, the ability to produce more in mid-ocean is clearly important for any ship.
Although distillers are often associated with steam ships, their use pre-dates this. Nelson
Horatio Nelson, 1st Viscount Nelson
Horatio Nelson, 1st Viscount Nelson, 1st Duke of Bronté, KB was a flag officer famous for his service in the Royal Navy, particularly during the Napoleonic Wars. He was noted for his inspirational leadership and superb grasp of strategy and unconventional tactics, which resulted in a number of...
's was fitted with distilling apparatus in her galley
Galley (kitchen)
The galley is the compartment of a ship, train or aircraft where food is cooked and prepared. It can also refer to a land based kitchen on a naval base or a particular formed household kitchen.-Ship's kitchen:...
. Distilling apparatus was only fitted to larger warships and some exploratory ships at this time: a warship's large crew needed more water and they could ill-afford the space to carry enough. Cargo ships, and their smaller crews, merely carried their supplies with them.
Boiler feedwater
With the development of the marine steam engineMarine steam engine
A marine steam engine is a reciprocating steam engine that is used to power a ship or boat. Steam turbines and diesel engines largely replaced reciprocating steam engines in marine applications during the 20th century, so this article describes the more common types of marine steam engine in use...
, their boilers also required a continual supply of feedwater
Boiler feedwater
Boiler feedwater is water used to supply a boiler to generate steam or hot water. At thermal power stations the feedwater is usually stored, pre-heated and conditioned in a feedwater tank and forwarded into the boiler by a boiler feedwater pump....
.
Early boilers used seawater directly, but this gave problems with the build-up of brine
Brine
Brine is water, saturated or nearly saturated with salt .Brine is used to preserve vegetables, fruit, fish, and meat, in a process known as brining . Brine is also commonly used to age Halloumi and Feta cheeses, or for pickling foodstuffs, as a means of preserving them...
and scale. For efficiency, as well as conserving feedwater, marine engines have usually been condensing engines. By 1865, the use of an improved surface condenser permitted the use of fresh water feed, as the additional feedwater now required was only the small amount required to make up for losses, rather than the total passed through the boiler. Despite this, a large warship could still require up to 100 tons of fresh water makeup to the feedwater system, when under full power. Attention was also paid to de-aereating
Deareating feed tank
A Deaerating Feed Tank , often found in steam plants that propel ships, is located after the main condensate pump and before the main feed booster pump....
feedwater, to further reduce boiler corrosion.
The distillation system for boiler feedwater at this time was usually termed an evaporator
Evaporator
An evaporator is a device used to turn the liquid form of some chemical into its gaseous form. For example, an evaporator is used in an air conditioning system to allow the compressed cooling chemical to evaporate from liquid to gas, absorbing heat in the process.-Uses:As stated above, an...
, partly to distinguish it from a separate system or distiller used for drinking water. Separate systems were often used, especially in early systems, owing to the problem of contamination from oily lubricants in the feedwater system and because of the greatly different capacities required in larger ships. In time, the two functions became combined and the two terms were applied to the separate components of the system.
Potable water distillers
The first water supply by distillation of boiler steam appeared on early paddle steamerPaddle steamer
A paddle steamer is a steamship or riverboat, powered by a steam engine, using paddle wheels to propel it through the water. In antiquity, Paddle wheelers followed the development of poles, oars and sails, where the first uses were wheelers driven by animals or humans...
s and used a simple iron box in the paddle boxes, cooled by water splash. A steam supply direct from the boiler, avoiding the engine and its lubricants, was led to them. With the development of steam heating jackets around the cylinders of engines such as the trunk engine, the exhaust from this source, again unlubricated, could be condensed.
Combined supply
The first distilling plants that boiled a separate water supply from that of the main boiler, appeared around 1867. These are not directly heated by a flame, but have a primary steam circuit using main boiler steam through coils within a steam drum or evaporatorEvaporator
An evaporator is a device used to turn the liquid form of some chemical into its gaseous form. For example, an evaporator is used in an air conditioning system to allow the compressed cooling chemical to evaporate from liquid to gas, absorbing heat in the process.-Uses:As stated above, an...
. The distillate from this vessel then passes to an adjacent vessel, the distilling condenser. As these evaporators used a 'clean' seawater supply directly, rather than contaminated water from the boiler circuit, they could be used to supply both feedwater and drinking water. These double distillers appeared around 1884. For security against failure, ships except the smallest were fitted with two sets.
Vacuum evaporators
Evaporators consume a great deal of steam, and thus fuel, in relation to the quantity of fresh water produced. Their efficiency is improved by working them at a partial vacuum, supplied by the main engine condensers. On modern diesel-powered ships, this vacuum can instead be produced by an ejector, usually worked by the output from the brine pump. Working under vacuum also reduces the temperature required to boil seawater and thus permits evaporators to be used with lower-temperature waste heat from the diesel cooling system.Scale
One of the greatest operational problems with an evaporator is the build-up of scale. Its design is tailored to reduce this, and to make its cleaning as effective as possible. The usual design, as developed by Weir and the AdmiraltyAdmiralty
The Admiralty was formerly the authority in the Kingdom of England, and later in the United Kingdom, responsible for the command of the Royal Navy...
, is for a vertical cylindrical drum, heated by steam-carrying drowned coils in the lower portion. As they are entirely submerged, they avoid the most active region for the deposition of scale, around the waterline. Each coil consists of one or two spirals in a flat plane. Each coil is easily removed for cleaning, being fastened by individual pipe unions through the side of the evaporator. A large door is also provided, allowing the coils to be removed or replaced. Cleaning may be carried out mechanically, with a manual scaling hammer. This also has a risk of mechanical damage to the tubes, as the slightest pitting tends to act as a nucleus for scale or corrosion. It is also common practice to break light scaling free by thermal shock, by passing steam through the coils without cooling water present or by heating the coils, then introducing cold seawater.
Despite the obvious salinity of seawater, salt
Sodium chloride
Sodium chloride, also known as salt, common salt, table salt or halite, is an inorganic compound with the formula NaCl. Sodium chloride is the salt most responsible for the salinity of the ocean and of the extracellular fluid of many multicellular organisms...
is not a problem for deposition until it reaches the saturation concentration. As this is around seven times that of seawater and evaporators are only operated to a concentration of two and a half times, this is not a problem in service.
A greater problem for scaling is the deposition of calcium sulphate. The saturation point for this compound decreases with temperature above 60°C, so that beginning from around 90°C a hard and tenuous deposit is formed.
To further control scale formation, equipment may be provided to automatically inject a weak citric acid
Citric acid
Citric acid is a weak organic acid. It is a natural preservative/conservative and is also used to add an acidic, or sour, taste to foods and soft drinks...
solution into the seawater feed. The ratio is 1:1350, by weight of seawater.
Compound evaporators
Operation of an evaporator represents a costly consumption of main boiler steam, thus fuel. Evaporators for a warship must also be adequate to supply the boilers at continuous full power when required, even though this is rarely required. Varying the vacuum under which the evaporator works, and thus the boiling point of the feedwater, may optimise production for either maximum output, or better efficiency. Greatest output is achieved when the evaporator operates at near atmospheric pressure and a high temperature (for saturated steamSaturated steam
In thermodynamics, the state of saturation of a fluid indicates that the fluid is at its boiling point temperature. This term can be applied in several ways:*Saturated liquid: fully in the liquid state but is about to vaporize....
this will be at a limit of 100°C), which may then have an efficiency of 0.87 kg of feedwater produced for each kg of steam supplied.
If condenser vacuum is increased to its maximum, evaporator temperature may be reduced to around 72°C. Efficiency increases until the mass of feedwater produced almost equals that of the supplied steam, although production is now restricted to 0.86 of the previous maximum.
Evaporators are generally installed as a set, where two evaporators are coupled to a single distiller. For reliability, large ships will then have a pair of these sets. It is possible to arrange these sets of evaporators in either parallel or in series, for either maximum or most efficient production. This arranges the two evaporators so that the first operates at atmospheric pressure and high temperature (the maximum output case), but then uses the resultant hot output from the first evaporator to drive a second, running at maximum vacuum and low temperature (the maximum efficiency case). The overall output of feedwater may exceed the weight of steam first supplied, as up to 1.6 times as much. Capacity is however reduced, to 0.72 times the maximum.
Evaporator pumps
The unevaporated seawater in an evaporator gradually becomes a concentrated brine and, like the early steam boilers with seawater feed, this brine must be intermittently blown down every six to eight hours and dumped overboard. Early evaporators were simply mounted high-up and dumped their brine by gravity. As the increasing complexity of surface condensers demanded better feedwater quality, a pump became part of the evaporator equipment. This pump had three combined functions as a seawater feed pump, a fresh water delivery pump and a brine extraction pump, each of progressively smaller capacity. The brine salinity was an important factor in evaporator efficiency: too dense encouraged scale formation, but too little represented a waste of heated seawater. The optimum operating salinity was thus fixed at three times that of seawater, and so the brine pump had to remove at least one third of the total feedwater supply rate. These pumps resembled the steam-powered reciprocating feedwater pumps already in service. They were usually produced by the well-known makers, such as G & J Weir. Vertical and horizontal pumps were used, although horizontal pumps were favoured as they encouraged the de-aeration of feedwater. Electrically powered rotary centrifugal pumps were later adopted, as more efficient and more reliable. There were initial concerns whether these would be capable of pumping brine against the vacuum of the evaporator and so there was also a transitional type where a worm gear-driven plunger pumpPlunger pump
A plunger pump is a type of positive displacement pump where the high-pressure seal is stationary and a smooth cylindrical plunger slides though the seal. This makes them different from piston pumps and allows them to be used at high pressures...
for brine was driven from the rotary shaft.
Flash distillers
A later form of marine evaporator is the flash distiller. Heated seawater is pumped into a vacuumVacuum
In everyday usage, vacuum is a volume of space that is essentially empty of matter, such that its gaseous pressure is much less than atmospheric pressure. The word comes from the Latin term for "empty". A perfect vacuum would be one with no particles in it at all, which is impossible to achieve in...
chamber, where it 'flashes' into pure water vapour. This is then condensed for further use.
As the use of vacuum reduces the vapour pressure, the seawater need only be raised to a temperature of 77 °C (170.6 °F).A temperature of at least 71 °C (159.8 °F) is required, for sterilisation purposes. Both evaporator and distiller are combined into a single chamber, although most plants use two joined chambers, worked in series. The first chamber is worked at 23.5 inHg vacuum, the second at 26-27 inHg. Seawater is supplied to the distiller by a pump at around 20 psi. The cold seawater passes through a condenser coil in the upper part of each chamber before being heated by steam in an external feedwater heater. The heated seawater enters the lower part of the first chamber, then drains over a weir and passes to the second chamber, encouraged by the differential vacuum between them. The brine produced by a flash distiller is only slightly concentrated and is pumped overboard continuously.
Fresh water vapour rises through the chambers and is condensed by the seawater coils. Baffles and catchment trays capture this water in the upper part of the chamber. Vacuum itself is maintained by steam ejectors.
The advantage of the flash distiller over the compound evaporator is its greater operating efficiency, in terms of heat supplied. This is due to working under vacuum, thus low temperature, and also the regenerative use of the condenser coils to pre-heat the seawater feed.
A limitation of the flash distiller is its sensitivity to seawater inlet temperature, as this affects the efficiency of the condenser coils. In tropical waters, the distiller flowrate must be throttled to maintain effective condensation. As these systems are more modern, they are generally fitted with an electric salinometer
Salinometer
A salinometer is a device designed to measure the salinity, or dissolved salt content, of a solution.Since the salinity affect both the electrical conductivity and the specific gravity of a solution, a salinometer often consist of an ec meter or hydrometer and some means of converting those...
and some degree of automatic control.
Vapour-compression distillers
DieselDiesel engine
A diesel engine is an internal combustion engine that uses the heat of compression to initiate ignition to burn the fuel, which is injected into the combustion chamber...
-powered motorships do not use steam boilers as part of their main propulsion system and so may not have steam supplies available to drive evaporators. Some do, as they use auxiliary boilers for non-propulsion tasks such as this. Such boilers may even be heat-recovery boilers that are heated by the engine exhaust.
Where no adequate steam supply is available, a vapour-compression distiller is used instead. This is driven mechanically, either electrically or by its own diesel engine.
Seawater is pumped into an evaporator, where it is boiled by a heating coil. Vapour produced is then compressed, raising its temperature. This heated vapour is used to heat the evaporator coils. Condensate from the coil outlet provides the fresh water supply. To start the cycle, an electric pre-heater is used to heat the first water supply. The main energy input to the plant is in mechanically driving the compressor, not as heat energy.
Both the fresh water production and the waste brine from the evaporator are led through an output cooler. This acts as a heat exchanger
Heat exchanger
A heat exchanger is a piece of equipment built for efficient heat transfer from one medium to another. The media may be separated by a solid wall, so that they never mix, or they may be in direct contact...
with the inlet seawater, pre-heating it to improve efficiency. The plant may operate at either a low pressure or slight vacuum, according to design. As the evaporator works at pressure, not under vacuum, boiling may be violent. To avoid the risk of priming
Priming (steam engine)
Priming is a condition in the boiler of a steam engine in which water is carried over into the steam delivery. It may be caused by impurities in the water, which foams up as it boils, or simply too high a water level...
and a carry over of saltwater into the vapour, the evaporator is divided by a bubble cap separator.
Submarines
Vapour-compression distillers were installed on US submarines shortly before World War 2. Early attempts had been made with evaporators running from diesel engine exhaust heat, but these could only be used when the submarine was running at speed on the surface. A further difficulty with submarines was the need to produce high-quality water for topping up their large storage batteries. Typical consumption on a war patrol was around 500 US gallons per day for hotel services, drinking, cooking, washingAlthough German U-boats relied on saltwater soap, US practice was to fit adequate distilling plant. etc. and also for topping up the diesel engine cooling system. A further 500 gallons per week was required for the batteries. The standard Badger model X-1 for diesel submarines could produce 1,000 gallons per day. Tank capacity of 5,600 gallons (1,200 of which was battery water) was provided, around 10 days reserve. With the appearance of nuclear submarines and their plentiful electricity supply, even larger plant could be installed. The X-1 plant was designed so that it could be operated when snorkelling, or even when completely submerged. As the ambient pressure increased when submerged, and thus the boiling point, additional heat was required in these submarine distillers and so they were designed to run with electric heat continuously.See also
- Chaplin's Patent Distilling Apparatus with Steam PumpChaplin's Patent Distilling Apparatus with Steam PumpAlexander Chaplin & Co. was an important and highly regarded engineering and manufacturing syndicate based in the United Kingdom during the mid-19th century to early 20th century with its manufacturing and plant facilities located at Cranstonhill Engine Works, Glasgow...
- ScuttlebuttScuttlebuttScuttlebutt in slang usage means rumor or gossip, deriving from the nautical term for the cask used to serve water . Retrieved 2008-03-16...