High-Shear Mixing: Applications in the Food Industry
In the food industry, achieving consistent, high-quality products is essential to meet consumer expectations and maintain a strong market presence....
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MXD Process May 16, 2024 9:26:00 AM
The industrial mixing process plays an important role in the petroleum industry. From first exploration all the way up through bringing the final product to market, industrial mixing technologies are put to use by those in the petroleum industry in order to perform a wide range of processes. In this article, we'll look at some of the roles that industrial mixing plays in bringing petroleum products to market and how businesses in the petroleum industry can use industrial mixing technologies to their advantage.
When drilling for oil, drilling fluid is used to keep the drill bit clean and to keep it from overheating. This drilling fluid consists of a stabilized water-in-oil mixture and clay. This mixture involves mixing water and oil in a heavily agitated tank and is done by the batch. By enabling the production of this fluid, industrial mixing technology plays an important role when drilling for oil.
Another important role that mixing plays in upstream operations takes place during product sampling. Crude oil is sampled prior to its transport to the refinery. However, the water must be dispersed evenly throughout the oil in the pipeline to allow for the most accurate measure of water content. To do this, a mixer must be placed upstream. It's important, though, that the upstream mixing operation is able to agitate the oil enough to mix it with the water while still creating a mixture that easily separates once it is in the downstream storage tanks. Since a sampling error of just .1% can cost a refinery $250,000 per medium-sized container of oil, using mixing technologies to ensure a thoroughly accurate sampling of the water content in the oil is something that all refineries must do.
Another role that industrial mixing applications play in upstream operations is reducing the viscosity of viscous crude oil so that it can be transported in existing pipelines that were built for less viscous crude. Lastly, mixing technologies are also used to help separate oil in dry oil sand ore operations.
The sludge that crude oil contains settling to the bottom of the tanks presents a problem during storage of the oil. If this sludge settles to the bottom of the tank, it will solidify, making it extremely difficult to pump out. Because of this, it is important to keep crude oil continuously mixed throughout the duration of its storage. To keep sludge from settling, most refineries make use of side-entering propeller mixers and rotating submerged jet nozzles. The propeller mixers keep the majority of the sludge from ever settling to the bottom. In the event that sludge does settle on the bottom, high-pressure jet nozzles that constantly rotate at the bottom of the tank are able to dislodge it.
When refining natural gas, large concentrations of CO2 and SO2 must be removed. In a typical refinery, this is done using a process by which CO2 and SO2 are absorbed in a packed bed contactor. These packed bed contactors, though, are massive and unsuitable for use on an offshore refinery. Instead, offshore operations make use of static mixers to separate and remove CO2 and SO2 from natural gas.
Mixing technology is also used to help remove salt from the oil before it is further refined. This process is performed by mixing the oil with an emulsifier while it is still in the pipe and then mixing it with fresh water in an in-line mixer. The water-in-oil mixture is then separated in an electrostatic separator to produce an oil that is almost completely free of water and salt.
In producing propane, asphaltene and other resins must be removed from the propane. To do this, the propane is mixed in a static mixer before it is fed into the extractor. This mixing allows the deasphalting of propane to be performed using a much smaller extractor than would otherwise be required.
lastly, before they are ready for market, most petroleum products need to be mixed with certain additives. To do this, agitators or blenders are placed into the tank along with the additives that are required.
Industrial mixing applications in the petroleum industry play an important role in both upstream and downstream operations. In many cases, these mixing applications not only make the operations more efficient and effective, they also can end up saving refineries a small fortune. From mixing the drilling fluid used to lubricate the drill bit when drilling for oil all the way up to mixing additives into the final product, industrial mixing technologies are used at almost every step of the way in the production of petroleum products.
At Mixer Direct, we are proud to provide a wide range of high-quality industrial mixers for use in the petroleum industry. If you would like to learn more about any of our mixers or their possible applications in the petroleum industry, we invite you to contact us today by clicking the button below.
(Editor's Note: This blog was originally published in 2017 and was updated in May 2024 to reflect the most current information.)
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