Background Information
Processes requiring pure water must continually replace the water being consumed. Sources of replacement water are usually local supplies from a river or lake and therefore require pre-treatment and purification before it can be used in the process.
After preliminary purification which may include filtration, clarification and softening, further downstream, a two-pass reverse osmosis system and demineralization operations are typically employed to further purify the water.
Osmosis is the natural tendency of a fluid, usually water, to pass through a semipermeable membrane from a less concentrated solution into a more concentrated one, thus equalizing the concentrations on each side of the membrane.
In reverse osmosis (RO), pressure must be exerted on the side with the concentrated solution to force the water molecules across the semi-permeable membrane to the fresh (pure) water side.
This semi-permeable membrane inhibits the majority of dissolved impurities from passing through to the pure water side. The amount of impurities carried over depends on the type and condition of the membrane (i.e. age, cleanliness) and the amount of pressure applied (energy) to the process.
Not all the feed water passes through the membrane. Some is diverted to flow over them to cleanse away the rejected impurities in a cross-flow filtration mode.
The RO system produces one purified water stream called permeate and a second stream called concentrate, brine, or reject. Feedwaterenters the machine at fairly low pressure and flows through pre-filters to remove suspended particles, such as silt. Pre-filters are typically a replaceable cartridge type which provides a cost effective method for keeping the membrane clean. Typical life expectancy for these membranes is approximately three years.
RO systems are designed for automatic operation and require routine preventative and corrective maintenance. Common problems include membrane fouling and the use of improper flow rates. The result is reduced throughput capacity and shortened runs.
Membranes can fail altogether, resulting in excessive demand on downstream purification systems and poor quality product water.
Both pH and conductivity measurements are used to safeguard the successful operation of an RO system.
Some types of RO membranes are sensitive to feed water pH and can become damaged if the pH is outside the recommended range of 5 to 8 pH.A pH sensor upstream of the membrane can provide a feedback signal to control dosing of acidic or basic reagent to maintain the pH within acceptable limits.
Conductivity measurements are used at both the inlet and outlet of the RO unit to determine whether the total dissolved solids are being filtered effectively.
General Applications
Reverse osmosis systems can remove up to 100% of suspended solids and approximately 90% of dissolved solids, dissolved silica, alkalinity and hardness.
A common use for RO is for purifying water, removing salts and other impurities to improve the color, taste and other properties. It is regularly used for commercial and residential water filtration and is also one of the methods used for desalinization of seawater.
RO systems are capable of rejecting bacteria, salts, sugars, proteins, particles, dyes, and other constituents which have a molecular weight of greater than 150-250 Daltons.
The separation of ions with reverse osmosis is aided by charged particles. This means any dissolved ions which carry a charge, such as salts, are more likely to be rejected by the membrane than those that are not charged, such as organics. The larger the charge and the larger the particle, the more likely it will be rejected.
The majority of RO membranes are negatively charged when they are operated within the pH levels most commonly encountered in water applications.
Pure Water Applications
A two-pass RO system is typically installed upstream of the demineralizer. Its performance is pH dependent with the second-pass section most dramatically affected. While these changes are not significant in the majority of applications, variations become crucial to the success of high-purity water processing.
In addition, the effect of minor feedwater constituents, such as alkalinity and ammonia also play a role in achieving high-purity permeate.
The overall efficiency of dissolved solids removal is usually determined utilizing a pair of conductivity measurements, one at the inlet (cell 1) and one at the outlet (cell 2). This is referred to as % rejection and calculated by the formula:
% rejection = [1-(cell2)/(cell 1)] x 100
For example if the inlet water had 200 ppm of dissolved solids and the outlet water had 10 ppm, the efficiency would be 95% rejection rate. A typical range for this type of application is 80% - 100% rejection.
A final conductivity measurement after the 2nd stage is often used to determine the absolute quality of the outlet water.
Ammonia also affects the production of high purity water and may be present due to municipal chlorination of feedwater or from organic contamination.
Ammonia (NH3) will through the membrane system in either the molecular or ionic (NH4+) form.
Ammonium hydroxide is less conductive than ammonium carbonate [(NH4)2CO3] so it is not uncommon to find off-line samples or storage tank water with conductivity higher than that of on-line readings.
The pH values will be lower. This shift in pH is due to absorption of CO2 from the air and the formation of carbonic acid in the water. Without the presence of ammonia, this type of contamination of highpurity water with CO2 would generate higher conductivity as well as the reduced pH.
Product Recommendations
Process Liquid Analyzer:
- 2-wire FLXA202 Analyzer
- 4-wire FLXA402 Analyzer
pH Measurement Sensor Selection:
Option #1:
Holders
- FF20 Flow-thru assembly with individual measure, reference and temperature electrodes
- FS20 Insertion assembly with individual measure, reference and temperature electrodes
Sensors
- Bellowmatic reference electrode (SR20-AC32)
- Shock-proof measuring electrode (SM21-AG4)
- Pt1000 temperature electrode (SM60-T1)
Option 2:
Holder: PH8HH Flow Thru assembly
Sensor: PH8EHP Flowing reference pH Sensor for High Purity Water
Conductivity Measurement Sensor Selection:
Holders
- FF40 Flow-thru assembly
- FS40 Insertion assembly
Electrodes
- SC42-SP24
- SC42-SP34
Digital SMART Option:
The re-usable smart adapter, SA11, offers full measuring parameter functionality of analog sensors equipped with a Variopin connector and Yokogawa ID chip. The SA11 automatically recognizes the installed sensor and prepares the right configuration.
Note: For additional information on this application contact the local Yokogawa Process Liquid Analyzer Department
產業別
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Water & Wastewater
促進永續水循環是永續發展目標(SDG)之一。 橫河電機一直致力於提供先進的數位控制解決方案,以穩定供應清潔安全的水、保護水環境的廢水處理、水損耗管理以及優化工廠運作減少二氧化碳排放和運行成本。 利用我們領先的技術、可靠的產品以及在世界各地不同供水項目中豐富的專業知識和經驗,我們與客戶合作提供可持續的水務解決方案,以促進客戶的業務並在整個工廠生命週期中增加價值。
橫河電機支援公用和工業用水的各種供水控制應用。
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上游
上游業包含海上和陸上活動,包括井口自動化,分餾,完井和分離,回收和製備地下或水下原油和天然氣。
當石油被帶到地表時,在運輸之前必須將其分離。在三相分離中,一級和二級分離階段通常分佈有氣體流量,水流量和油流量,氣體的輸送需要管道,並且在輸送之前的上游階段需要進行分餾。液體需要通過罐和管道輸送並處理,這就需要精確的液位測量。
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石油和天然氣
石油和天然氣
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石油和天然氣下游
近年來,石油和天然氣下游產業面臨著越來越多的挑戰。這些挑戰包括待加工原料的特性變化、工業設施及設備的老化、能源成本的上升、缺乏能夠使煉油廠安全有效運行的熟練技術工人,以及市場和客戶的需求不斷變化。
多年來,橫河與許多下游公司合作,致力於提供應對這些挑戰和問題的工業解決方案。橫河的解決方案幫助工廠投資者盡可能實現最大的盈利能力和工廠內可持續的安全。 -
精煉
在不斷變化的市場中,煉油廠不僅是原油加工單位,而且是利潤中心。同時,人們強烈意識到煉油廠設施安全性的重要。為了實現盈利,效率及環境保護的長期目標,需要包括計劃,調度,管理和控制的總體生產解決方案。憑藉在自動化領域多年積累的專業知識,橫河可以為您提供經濟實惠的完善的整體解決方案,改善操作並使世界更清潔。
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近海 (FPSO FLNG & FSRU)
近海的勘探和生產需要在惡劣的條件下最大限度地保障正常運行時間。載人和無人駕駛設施需要可靠的綜合控制和安全系統(ICSS),並且需要具有先進的遠程監控能力。橫河電機擁有先進技術和豐富經驗,可以執行各種規模及自動化程度複雜的離岸項目。
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食品 & 飲料
在食品製造業中,除了需要應對「食品安全」、「糧食安全」、「降低成本」這些傳統挑戰,還需要面對病菌和減少勞動力的挑戰。
橫河Yokogawa與客戶密切合作、共同應對挑戰、提出理想工廠的解決方案,幫助生產廠商創造更舒適的工作環境。
相關產品&解決方案
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Flow/NPT Fittings FF20/FS20
Yokogawa has invested considerable design and development time in producing a full range of fittings with particular emphasis on designs that reduce installation and maintenance time and consequently save operation costs.
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PH8EHP高純水pH傳感器
通製PH8EHP pH傳感器和PH8HH支架能夠可靠測量鍋爐和半導體工業應用中所用高純水的pH值。
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兩線式Dual Channel分析儀 FLXA21
FLEXA™ 系列分析儀用於工業裝定的連續線上測量,具有單感測器或雙感測器測量選項,是目前最靈活的兩線式分析儀。
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兩線式液體分析計FLXA202
FLEXA™ 系列分析儀用於工業裝定的連續線上測量,具有單感測器或雙感測器測量選項,是目前最靈活的兩線式分析儀。
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四線式液體分析計 FLXA402
The FLEXA™ 系列分析計是模組化設計的分析計,用於工業裝定中的連續線上測量。提供單一或多sensor測量。
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數位 SMART SENCOM™ 轉接器: SA11
可重複使用的 SMART 轉接器,只需在感測器達到其使用壽命時進行處理。橫河電機的SENCOM 4.0平台,可降低營運成本和資源浪費,同時貢獻永續未來的長期業務目標。
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pH和ORP傳感器
pH電極和傳感器是進行pH值測量的傳感部分,有伸縮式、流通式、浸入式和直插式等多種安裝選項。選擇合適的pH電極/傳感器對優化測量結果至關重要。
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導電度分析儀
可測量自來水、污水等水質,以及各種製程液體的導電度和電阻率測量。另有衛生型及方便型可供選擇。