Introduction
Reverse osmosis (RO) process technology is deployed in many industries. This process uses membrane separation which is one of the most economical means to remove suspended solids from feed water. Listed below are examples of some typical RO applications:
- Pretreatment for deionizers for ultra pure water, typically used in the semiconductor industry
- Production of zero-hardness water used for boiler feed water
- Treatment of sanitary waste
- Water purification
The RO function is accomplished by differential pressure across an array of filters. High pressure is applied to the raw water side of the filter that creates sufficient differential pressure across the filter enabling flow of the filtered water to the low-pressure side of the system.
Expected benefits
- Accurate differential pressure measurement is key to filtered water quality.
- Transmitter range flexibility reducing inventory with fewer models required for RO system designs.
- Robust Transmitter design delivering stable output under demanding process conditions.
Challenges
In this semiconductor factory they produce their own deionized water. A cellulose acetate membrane removes dissolved solids from the filtered raw water. Differential pressure values are the key factor determining filter maintenance intervention for cleaning or replacement of filter components.
Application requirements:
- Pressure transmitter must have accurate measurement.
- Pressure transmitter able to withstand plant vibration with more reliable performance than Pressure switches traditionally used.
- Pressure transmitter to deliver long term stability regardless of harsh process conditions of pressure surges and fluctuations that caused zero-point shift and drift with other transmitter brand’s previously used on site.
- Reduce maintenance activities and costs where possible.
Solution
EJA110E medium range unit was chosen to cover the measurement range 0 to 30 kPa (0 to 120 inH2O). The client focused on 0.055 % accuracy of capsule span, superior long-term stability (≤± 0.1 % @ 16 MPa, 2300 psi) and vibration tolerance.
【Static pressure transient test data】
Model: EJA110E M capsule with set range -2 to 2 kPa
Applied static pressure change: 500 kPa in 0.1 Sec
With sudden static pressure changes, the output from EJA110E responds stably and keeps zero every time.
Conclusion
DPharp EJA110E exhibits exceptional stability. Trial results from an EJA110E on this RO process that was evaluated over 6 months presented no zero drift or shift. Maintenance crews were relieved with no maintenance intervention or action required during the evaluation period. The EJA110E consistently delivers accurate and stable measurement of process conditions under real world conditions, resulting in better process efficiency and less maintenance downtime.
Industrieën
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Water en afvalwater
Waterbronnen zijn eindig en daarom is het bijdragen aan een duurzame watercyclus een van de duurzame ontwikkelingsdoelen (SDG's). Yokogawa levert al jaren geavanceerde digitale besturingsoplossingen voor de stabiele levering van schoon en veilig water en de behandeling van afvalwater ter bescherming van het watermilieu. Maar ook het beheren van waterverliezen en de optimalisatie van de werking van installaties ter vermindering van de CO2-uitstoot en de bedrijfskosten.
Yokogawa ondersteunt een breed scala aan waterbesturingstoepassingen in zowel waterschappen als de industriële watermarkt. Met onze toonaangevende technologieën, betrouwbare producten, uitgebreide expertise en ervaring met diverse waterprojecten over de hele wereld, werken wij met u samen om duurzame wateroplossingen te bieden die uw bedrijf een impuls geven en waarde toevoegen gedurende de gehele levenscyclus van de installatie.
Gerelateerde producten & oplossingen
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EJA110E
Standard Traditional-mount Differential Pressure Transmitter based on the EJA-E Series.
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EJA115E
Standard Differential Pressure Transmitter attached to an IFO assembly based on the EJA-E Series.
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EJA118E
Standard Differential Pressure Transmitter with Remote Diaphragm Seals based on the EJA-E Series.
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EJA120E
Standard Traditional-mount Differential Pressure Transmitter designed for Draft Range applications based on the EJA-E Series.
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EJA130E
Standard Traditional-mount High Static Differential Pressure Transmitter based on the EJA-E Series.
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EJA210E
Standard Flange-mounted Differential Pressure Transmitter designed for Liquid-level applications based on the EJA-E series.
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EJA310E
Standard Traditional-mount Absolute Pressure Transmitter based on the EJA-E Series.
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EJA430E
Standard Traditional-mount Gauge Pressure Transmitter based on the EJA-E series.
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EJA438E
Standard Gauge Pressure Transmitter with Remote Diaphragm Seal based on the EJA-E Series.
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EJA440E
Standard Traditional-mount High Gauge Pressure Transmitter based on the EJA-E Series.
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EJA510E
Standard In-Line Mount Absolute Pressure Transmitter based on the EJA-E Series.
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EJA530E
Standard In-Line Mount Gauge Pressure Transmitter based on the EJA-E Series.
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EJX110A
Traditional-mount Differential Pressure Transmitter based on the EJX-A Series as a high performance model.
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EJX115A
Differential Pressure Transmitter attached to an IFO assembly based on the EJX-A Series as a high performance model.
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EJX118A
Differential Pressure Transmitter with Remote Diaphragm Seals based on the EJX-A Series as a high performance model.
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EJX120A
Traditional-mount Differential Pressure Transmitter designed for Draft Range applications based on the EJX-A Series as a high performance model.
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EJX130A
Traditional-mount High Static Differential Pressure Transmitter based on the EJX-A Series as a high performance model.
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EJX210A
Flanged-mounted Differential Pressure Transmitter designed for Liquid-level applications based on the EJX-A Series as a high performance model.
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EJX310A
Traditional-mount Absolute Pressure Transmitter based on the EJX-A Series as a high performance model.
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EJX430A
Traditional-mount Gauge Pressure Transmitter based on the EJX-A Series as a high performance model.
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EJX438A
Gauge Pressure Transmitter with a Remote Diaphragm Seal based on the EJX-A Series as a high performance model.
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EJX440A
Traditional-mount High Gauge Pressure Transmitter based on the EJX-A Series as a high performance model.
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EJX510A
In-Line Mount Absolute Pressure Transmitter based on the EJX-A Series as a high performance model.
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EJX530A
In-Line Gauge Pressure Transmitter based on the EJX-A Series as a high performance model.
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EJX610A
High Performance In-Line Mount Absolute Pressure Transmitter based on the EJX-A Series.
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EJX630A
In-Line Mount High Performance Gauge Pressure Transmitter based on the EJX-A Series.
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EJX910A
This transmitter precisely measures differential pressure, static pressure, and process temperature; then uses these values in a high-perfomance on-board flow computer to deliver fully compensated Mass Flow.
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EJX930A
Designed specifically for high static pressure applications, this transmitter precisely measures differential pressure, static pressure, and process temperature; then uses these values in a high-perfomance on-board flow computer to deliver fully compensated Mass Flow.
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EJXC40A (Digital Remote Sensor)
Digital Remote Sensor (DRS) Transmitter connects two pressure sensors, primary (high-pressure side) and secondary (low-pressure side) in a remote location, with DRS dedicated communication cable to measure differential pressure.
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EJXC50A, EJAC50E (Gauge Pressure Direct Mounted Seal)
Direct Mounted Diaphragm Seal System consists of gauge pressure transmitter with single direct mount diaphragm seal.
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EJXC80A, EJAC80E (Differential / Gauge Pressure Diaphragm Seal)
Diaphragm Seal System consists of differential pressure or gauge pressure transmitter with one or two diaphragm seal.
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EJXC80A, EJAC80E (Differential Pressure Direct Mounted Seal)
Direct Mounted Diaphragm Seal System consists of differential pressure transmitter with single direct mount diaphragm seal.
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EJXC81A, EJAC81E (Absolute Pressure Diaphragm Seal)
Absolute Pressure Diaphragm Seal System consists of absolute pressure transmitter with single diaphragm seal.
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Absolute Pressure
Absolute Pressure transmitters compare a pressure relative to Absolute pressure. Absolute pressure is always a positive value.
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Diaphragm Seal System
Diaphragm Seal System can be used to measure liquid, gas, or steam flow as well as liquid level, density, and pressure.
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Differential Pressure
Differential Pressure (DP) is defined as the difference between two pressures. Differential Pressure Transmitters use a reference point called the low-side pressure and compare it to the high-side pressure. Ports in the instrument are marked high-side and low-side.
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Draft Pressure
Draft Pressure transmitters are a unique type of differential transmitter that is designed to measure small differences in very low static pressure environments.
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Gauge Pressure
Gauge Pressure transmitters compare a pressure relative to atmospheric measure.
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Hygienic Pressure Transmitters
Hygienic Pressure Transmitters are designed to fulfil the requirements of hygienic and pharmaceutical application.
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Liquid Level
Accurate level readings are essential to the safe, reliable, profitable operation of your plant. Liquid Level transmitters measure differential pressure to infer the level in a vessel.
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Low Flow
Using Bernoulli's equation, Differential Pressure transmitters can be used to infer the flow of fluid through a pipe.
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Mass Flow (Multivariable)
There are several technologies on the market to measure mass flow. One is the Multi-variable Pressure Transmitter.
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Multi-Sensing
A Multi-Sensing transmitter combines transmitters for Differential Pressure, Gauge Pressure, and Temperature into one field instrument.
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Pressure Transmitters
The accurate and stable measurement of process pressure with Yokogawa Pressure Transmitters supports the safe, reliable, and profitable operation of your plant.