Interface measurement in desalters
Interface measurements in desalters are often regarded as not being very critical, even though every drop of oil, to be refined, passes through the desalter. As refineries try to maximize their margins, so-called opportunity crudes are often used. These crude oils generally contain increased levels of sulphur, oil sands, bitumen, heavy oils and oils with high TAN. This can lead to problems with the proper operation of the desalter. In addition, refineries are increasingly confronted with stricter environmental regulations. The efficient level control of water/emulsions/oil layers in the desalter ensures that salts and minerals are effectively removed and that environmental requirements are met. Therefore, more and more operators are turning to radiometry as a highly reliable and accurate measurement solution for this application.
If a clearly defined interface is formed, different technologies can be used for interface measurement. If a larger emulsion layer is formed, for example, when using “opportunity crudes”, with a significant density gradient change from oil to water, the measurement with alternative technologies can lead to errors. These cannot determine the height of the emulsion layer and always assume only one separation layer (or interface). This can lead to misinterpretations and the level is either too high or too low.
If the level is too low, hydrocarbons can be entrained with the water/brine effluent and be sent to the waster water treatment plant, where it can cause environmental issues and potential penalties. If the level is too high, it can cause the electrostatic grids to short, therefore potentially allowing water, salts and minerals to be carried over with the crude oil, where water can damage to the distillation columns, salts can cause corrosion issues and fouling of heat exchangers/furnace tubes and minerals such as iron (Fe) can deactivate downstream catalyst. In addition to controlling water and brine levels, the EmulsionSENS interface measuring system from Berthold Technologies allows you to continuously monitor the gradient change in density to ensure that the water content in the area of the electrostatic grids stays within defined limits, preventing short circuits. In addition, the emulsion layer can be kept continuously at the desired level with the help of an EmulsionSENS, which leads to a significant reduction of the “emulsion breaker chemicals”.
Thus, we reduce the probability of upsets for our customers and maximize throughput in the desalter. This process optimization saves money in the long term. According to customers and experts, these are savings of $100,000 to $300,000. We help you to optimize your processes. We offer you tailored measurement solutions that meet the requirements of the refinery with the highest degree of accuracy and stability.
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Density, concentration and solids content
Non-contacting measurement technology made by Berthold. Berthold density measurement systems are used for the continuous process control on pipelines and in vessels. Density, concentration and solids content are determined in a non-contacting manner, without affecting the flow properties of the measured ...
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Continuous level - Non-contacting measurement
Non-contacting measurement technology by Berthold. The level measurement technology by Berthold is used in a variety of industrial sectors – ranging from the chemical to the waste water industry. It is suitable for measuring ranges of just a few millimetres up to several metres. Applications are ...
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Interface and Multiphase Level Measurement
Radiometric measurements from Berthold. The radiometric measurement systems from Berthold are used to localize the interface layer between two phases. These systems are even used in more complex processes to measure the density profile and thereby picturing the heights of the different product layers ...
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Interface measurement in desalters
Interface measurements in desalters are often regarded as not being very critical, even though every drop of oil, to be refined, passes through the desalter. As refineries try to maximize their margins, so-called opportunity crudes are often used. These crude oils generally contain increased levels of ...
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Optimal monitoring of separation processes
Monitoring interfaces or multiple layers in process vessels poses some challenges for the measurement technologies. Where other measuring methods fail and cannot withstand extreme process conditions, radiometric measuring systems can provide reliable results. Berthold’s radiometric measurement systems ...
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You want to improve the utilization of the drum capacity? Due to the conditions in the coke drum, a level measurement is a very challenging task. Where other measuring technologies tend to fail or end up being extremely unreliable, Berthold‘s radiometric level technology is ideal for monitoring the ...
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Measurement solutions for the Refining Industry
Berthold Technologies radiometric instruments for non-contacting level and density measurement are widely used in the global oil refining industry. Among our customers are well-known companies like Exxon Mobil, Sinopec, Shell, BP, Conoco Phillips, Lukoil and Total – just to name a few. Our measurement ...
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InlineSENS - Density Measuring Cell
Density and concentration measurement with low energy gamma radiation. The InlineSENS combines both a radiation source and scintillation detector in one device. Its use of low-energy gamma radiation from an Am-241 or Cm-244 source provides for strong responses to even the slightest change in product ...
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LB 350 - Online Moisture Analyzer
Radiometric moisture analyser for representative and robust measurements on bulk material. The LB 350 is a moisture measurement system for real-time determination of the moisture content of a wide variety of different bulk materials such as: * Coke * Sinter mixture * Ore * Sand * Building mater ...
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FracSENS LB 6770 Density Meter
The FracSENS LB 6770 nuclear density meter can connect directly to the control system. Without the transmitter unit, the outputted count rate can be used in the control system to calculate PPA, PPG, or SGU in both low and high pressure applications. The new scintillation technology ensures high sensitivity ...