Gas blending is the process of mixing gases for a specific purpose where the composition of the resulting mixture is defined, and therefore, controlled. A wide range of applications include scientific and industrial processes, food production and storage and breathing gases. Gas mixtures are usually specified in terms of molar gas fraction (which is closely approximated by volumetric gas fraction for many permanent gases): by percentage, parts per thousand or parts per million. Volumetric gas fraction converts trivially to partial pressure ratio, following

Dalton's law of partial pressures Dalton's law (also called Dalton's law of partial pressures) states that in a mixture of non-reacting gases, the total pressure exerted is equal to the sum of the partial pressures of the individual gases. This empirical law was observed by John ...

. Partial pressure blending at constant temperature is computationally simple, and

pressure measurement Pressure measurement is the measurement of an applied force by a fluid (liquid or gas) on a surface. Pressure is typically measured in units of force per unit of surface area. Many techniques have been developed for the measurement of pressu ...

is relatively inexpensive, but maintaining constant temperature during pressure changes requires significant delays for temperature equalization. Blending by mass fraction is unaffected by temperature variation during the process, but requires accurate measurement of mass or weight, and calculation of constituent masses from the specified molar ratio. Both partial pressure and mass fraction blending are used in practice.

Applications

Shielding gases for welding

Shielding gases are inert or semi-inert gases used in gas metal arc welding and gas tungsten arc welding to protect the weld area from oxygen and water vapour, which can reduce the quality of the weld or make the welding more difficult.

Gas metal arc welding Gas metal arc welding (GMAW), sometimes referred to by its subtypes metal inert gas (MIG) and metal active gas (MAG) is a welding process in which an electric arc forms between a consumable MIG wire electrode and the workpiece metal(s), which hea ...

(GMAW), or metal inert gas (MIG) welding, is a process that uses a continuous wire feed as a consumable electrode and an inert or semi-inert gas mixture to protect the weld from contamination.Lincoln Electric, p. 5.4-3

Gas tungsten arc welding Gas tungsten arc welding (GTAW, also known as tungsten inert gas welding or TIG, tungsten argon gas welding or TAG, and heliarc welding when helium is used) is an arc welding process that uses a non-consumable tungsten electrode to produce the ...

(GTAW), or tungsten inert gas (TIG) welding, is a manual welding process that uses a nonconsumable

tungsten Tungsten (also called wolfram) is a chemical element; it has symbol W and atomic number 74. It is a metal found naturally on Earth almost exclusively in compounds with other elements. It was identified as a distinct element in 1781 and first ...

electrode, an inert or semi-inert gas mixture, and a separate filler material.Weman, p. 31

Modified atmosphere packaging in the food industry

Modified atmosphere packaging preserves fresh produce to improve delivered quality of the product and extend its life. The gas composition used to pack food products depends on the product. A high

oxygen Oxygen is a chemical element; it has chemical symbol, symbol O and atomic number 8. It is a member of the chalcogen group (periodic table), group in the periodic table, a highly reactivity (chemistry), reactive nonmetal (chemistry), non ...

content helps to retain the red colour of meat, while low oxygen reduces mould growth in bread and vegetables.

Gas mixtures for brewing

Sparging Sparging may refer to: * Sparging (chemistry), a process in which a gas is bubbled through a liquid to remove other gases or volatile compounds *Air sparging Air sparging, also known as ''in situ'' air stripping and ''in situ'' volatilization is a ...

: An inert gas such as nitrogen is bubbled through the wine, which removes the dissolved oxygen. Carbon dioxide is also removed and to ensure that an appropriate amount of carbon dioxide remains, a mixture of nitrogen and carbon dioxide may be used for the sparging gas. *Purging and blanketing: The removal of oxygen from the headspace above the wine in a container by flushing with a similar gas mixture to that used for sparging is called purging, and if it is left there it is called blanketing or inerting.

Breathing gas mixtures for diving

breathing gas A breathing gas is a mixture of gaseous chemical elements and compounds used for respiration. Air is the most common and only natural breathing gas, but other mixtures of gases, or pure oxygen, are also used in breathing equipment and enclosed ...

is a mixture of gaseous chemical elements and compounds used for respiration. The essential component for any breathing gas is a

partial pressure In a mixture of gases, each constituent gas has a partial pressure which is the notional pressure of that constituent gas as if it alone occupied the entire volume of the original mixture at the same temperature. The total pressure of an ideal g ...

of between roughly 0.16 and 1.60 bar at the

ambient pressure The ambient pressure on an object is the pressure of the surrounding medium, such as a gas or liquid, in contact with the object. Atmosphere Within the atmosphere, the ambient pressure decreases as elevation increases. By measuring ambient atmosp ...

. The oxygen is usually the only metabolically active component unless the gas is an anaesthetic mixture. Some of the oxygen in the breathing gas is consumed by the metabolic processes, and the inert components are unchanged, and serve mainly to dilute the oxygen to an appropriate concentration, and are therefore also known as diluent gases.

Scuba diving

Gas blending for scuba diving is the filling of diving cylinders with non-air breathing gases such as nitrox, trimix and heliox. Use of these gases is generally intended to improve overall safety of the planned dive, by reducing the risk of

decompression sickness Decompression sickness (DCS; also called divers' disease, the bends, aerobullosis, and caisson disease) is a medical condition caused by dissolved gases emerging from Solution (chemistry), solution as bubbles inside the body tissues during D ...

and/or nitrogen narcosis, and may improve ease of breathing.

Surface supplied and saturation diving

Gas blending for surface supplied and

saturation diving Saturation diving is an ambient pressure diving technique which allows a diver to remain at working depth for extended periods during which the body tissues become solubility, saturated with metabolically inert gas from the breathing gas mixture ...

may include the filling of bulk storage cylinders and bailout cylinders with breathing gases, but it also involves the mixing of breathing gases at lower pressure which are supplied directly to the diver or to the hyperbaric life-support system. Part of the operation of the life-support system is the replenishment of oxygen used by the occupants, and removal of the carbon dioxide waste product by the gas conditioning unit. This entails monitoring of the composition of the chamber gas and periodic addition of oxygen to the chamber gas at the internal pressure of the chamber. The gas mixing unit is part of the life support equipment of a saturation system, along with other components which may include bulk gas storage, compressors, helium recovery unit, bell and diver hot water supply, gas conditioning unit and emergency power supply

Medical gas mixtures

The

anesthetic machine An anaesthetic machine (British English) or anesthesia machine (American English) is a medical device used to generate and mix a fresh gas flow of medical gases and inhalational anaesthetic agents for the purpose of inducing and maintaining anae ...

is used to blend breathing gas for patients under anesthesia during surgery. The gas mixing and delivery system lets the anesthetist control oxygen fraction,

nitrous oxide Nitrous oxide (dinitrogen oxide or dinitrogen monoxide), commonly known as laughing gas, nitrous, or factitious air, among others, is a chemical compound, an Nitrogen oxide, oxide of nitrogen with the Chemical formula, formula . At room te ...

concentration and the concentration of volatile anesthetic agents.The Anaesthetic Machine - Gas mixing systems http://www.anaesthesia.med.usyd.edu.au/resources/lectures/gas_supplies_clt/gasmixing.html The machine is usually supplied with oxygen (O₂) and nitrous oxide (N₂O) from low pressure lines and high pressure reserve cylinders, and the metered gas is mixed at ambient pressure, after which additional anesthetic agents may be added by a vaporizer, and the gas may be humidified. Air is used as a diluent to decrease oxygen concentration. In special cases other gases may also be added to the mixture. These may include carbon dioxide (CO₂), used to stimulate respiration, and helium (He) to reduce resistance to flow or to enhance heat transfer. Gas mixing systems may be mechanical, using conventional rotameter banks, or electronic, using proportional solenoids or pulsed injectors, and control may be manual or automatic.

Chemical production processes

Providing reactive gaseous materials for chemical production processes in the required ratio

Controlled atmosphere manufacture and storage

Protective gas mixtures may be used to exclude air or other gases from the surface of sensitive materials during processing. Examples include melting of reactive metals such as magnesium, and heat treatment of steels.

Customized gas mixtures for analytical applications

Calibration gases: *Span gases are used for testing and calibrating gas detection equipment by exposing the sensor to a known concentration of a contaminant. The gases are used as a reference point to ensure correct readings after calibration and have very accurate composition, with a content of the gas to be detected close to the set value for the detector. *Zero gas is normally a gas free of the component to be measured, and as similar as practicable to the composition of the gas to be monitored, used to calibrate the zero point of the sensor. Calibration gas mixtures are generally produced in batches by gravimetric or volumetric methods. The gravimetric method uses sensitive and accurately calibrated scales to weigh the amounts of gases added into the cylinder. Precise measurement is required as inaccuracy or impurities can result in incorrect calibration. The container for calibration gas must be as close to perfectly clean as practicable. The cylinders may be cleaned by purging with high purity nitrogen, the vacuumed. For particularly critical mixtures the cylinder may be heated while being vacuumed to facilitate removal of any impurities adhering to the walls.Staff, Wilhelmsen Ships Service: "Span gases" http://www.wilhelmsen.com/services/maritime/companies/buss/BUSS_Pressroom/Documents/Span%20Gases.pdf After filling, the gas mixture must be thoroughly mixed to ensure that all components are evenly distributed throughout the container to prevent possible variations on composition within the container. This is commonly done by rolling the container horizontally for 2 to 4 hours.

Methods

Several methods are available for gas blending. These may be distinguished as batch methods and continuous processes.

Batch methods

Batch gas blending requires the appropriate amounts of the constituent gases to be measured and mixed together until the mixture is homogeneous. The amounts are based on the mole (or molar) fractions, but measured either by volume or by mass. Volume measurement may be done indirectly by partial pressure, as the gases are often sequentially decanted into the same container for mixing, and therefore occupy the same volume. Weight measurement is generally used as a proxy for mass measurement as acceleration can usually be considered constant. The mole fraction is also called the amount fraction, and is the number of molecules of a constituent divided by the total number of all molecules in the mixture. For example, a 50% oxygen, 50% helium mixture will contain approximately the same number of molecules of oxygen and helium. As both oxygen and helium approximate ideal gases at pressures below 200 bar, each will occupy the same volume at the same pressure and temperature, so they can be measured by volume at the same pressure, then mixed, or by partial pressure when decanted into the same container. The mass fraction can be calculated from the molar fraction by multiplying the molar fraction by the

molecular mass The molecular mass () is the mass of a given molecule, often expressed in units of daltons (Da). Different molecules of the same compound may have different molecular masses because they contain different isotopes of an element. The derived quan ...

for each constituent, to find a constituent mass, and comparing it to the summed masses of all the constituents. The actual mass of each constituent needed for a mixture is calculated by multiplying the mass fraction by the desired mass of the mixture.

Partial pressure blending

Also known as volumetric blending. This must be done at constant temperature for best accuracy, though it is possible to compensate for temperature changes in proportion to the accuracy of the temperature measured before and after each gas is added to the mixture. Partial pressure blending is commonly used for breathing gases for diving. The accuracy required for this application can be achieved by using a pressure gauge which reads accurately to 0.5 bar, and allowing the temperature to equilibrate after each gas is added.

Mass fraction blending

Also known as gravimetric blending. This is relatively unaffected by temperature, and accuracy depends on the accuracy of mass measurement of the constituents. Mass fraction blending is used where great accuracy of the mixture is critical, such as in calibration gases. The method is not suited to moving platforms where the accelerations can cause inaccurate measurement, and therefore is unsuitable for mixing diving gases on vessels.

Continuous processes

Additive

*Constant flow blending – a controlled flow of the constituent gases is mixed to form the product. Blending may occur at ambient pressure or at a pressure setting above ambient but lower than supply gas pressures. **Constant mass flow supply: Precision mass flow controllers are used to control the flow rate of each gas for blending. Mass flow meters may be installed on the outputs of the mass flow controllers to monitor the output. The gases may be passed through a static mixer to ensure homogeneous output. Continuous gas blending is used for some surface supplied diving applications, and for many chemical processes using reactive gas mixtures, particularly where there may be a need to alter the mixture during the operation or process.

Subtractive

These processes start with a mixture of gases, usually air, and reduce the concentration of one or more of the constituents. These processes can be used for the production of Nitrox for scuba diving and deoxygenated air for blanketing purposes. *

Pressure swing adsorption Pressure swing adsorption (PSA) is a technique used to separate some gas species from a mixture of gases (typically air) under pressure according to the species' molecular characteristics and affinity for an adsorbent material. It operates at ne ...

– Selective adsorption of gas on a medium which is reversible and proportional to pressure. Gas is loaded onto the medium during the high pressure phase and is released during the low pressure phase. *

Membrane gas separation Gas mixtures can be effectively separated by synthetic membranes made from polymers such as polyamide or cellulose acetate, or from ceramic materials. While polymeric membranes are economical and technologically useful, they are bounded by their ...

– Gas is forced through a semi-permeable membrane by a pressure difference. Some of the constituent gases pass through the membrane more easily than the others, and the output from the low pressure side is enriched with the gases which pass through more easily. Gases which are slower to pass through the membrane accumulate on the high pressure side and are continuously discharged to retain a steady concentration. The process may be repeated in several stages to increase concentrations.

Gas analysis

Gas mixtures must generally be analysed either in process or after blending for quality control. This is particularly important for breathing gas mixtures where errors can affect the health and safety of the end user. Oxygen content is relatively simple to monitor using electro-galvanic cells and these are routinely used in the underwater diving industry for this purpose, though other methods may be more accurate and reliable.

References

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