BWB - Model FP/PC APP - Redefining Sugar Refining Flame Photometer
From BWB - Flame Photometer Range
In keeping with the Globally accepted published papers from 1977 forward, potassium and sodium detection is now available online 24/7 with a Uniquely configured channel of detection for extreme accuracy along the range of potassium control. This winning proprietary format has been improved with a unique adaptation and optimisation of the proprietary BWB optical array detection systems, which in this iteration of the BWB Specialty Flame Photometers allows for a single channel of precise and accurate potassium and sodium measurement. This Specialty Flame Photometer has been requested and designed for the global Sugar Production marketplace.
Product Details
There were a few traditional Flame Photometer manufacturers over the decades who had served this market and now these robust and fantastic units are coming out of service.
Enter the BWB SUGAR Flame Photometer with specialised potassium and sodium channel detection, supplied with hybridised specific needs multiple point calibration solutions for potassium and sodium. Per our customers’ requests, our Collection Cup provides Real Time sample access for our mixing chamber/detection systems and only requires that the sample be at or near ambient temperature and customer provided ~5ml/minute feed to our unique “Collection Cup” system.
This totally unique BWB feature allows multiple installations details to be shared via intranet or internet links to provide “Distributed Control” via a single Control room with staff completely remote from the Refinery site itself. For large Sugar Companies with multiple sites around the world, this allows Expertise from a centralized location anywhere in the world with real time virtually limitless data accumulation and analysis.
.csv files allow users to construct novel and proprietary Excel spread sheets and to share data quickly and efficiently.
WHAT’S IN THE BOX
- PC Leads USB and RS232
- Power lead to suit your region
- Gas Hose
- Aspiration Kit
- Manuals covering all aspects of the Sugar FP
- Quick Start guides
- Warranty Registration Form
- Certificates of analysis for all provided Fluids
- Material Safety Data Sheets for all provided Fluids
- The FP-PC Software installation USB
- 150ml of BWB recommended cleaning solution
- 150ml calibration fluids for Na, K & Li at 10,000ppm.
- 100ml conical flask with screw lid
- 100 disposable sample cups
- 1L of De-Ionised water
- 2x 2m of waste tube
- Set of spare fuses
- 10 x 10ml pipettes
- 10 x 1ml pipettes
Features
- Uniquely hybridized BWB dual channel, focused for high accuracy potassium and sodium measurements
- “IRS” (internal reference standard) available
- 4-20ma 2 wire output compatible with SCADA software
- Live online monitoring
- Constant condensation stream feeds with use of the proprietary BWB collection cup
- Built-in air compressor; pioneered by BWB technologies in 2007 and proven now with over 1000 units in global field use
- Solutions and labware included; “just add gas”, the hallmark of the user friendly BWB flame photometer (FES) program
- User selectable decimal places
- Intuitive user interface for true ease of use
- Display prompts step by step operation
- Data sharing via pc link with BWB’S
- FP/PC app
Applications
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Flame photometer solution for recommended sample handling techniques & considerations sector - Monitoring and Testing - Laboratory Equipment
Thoroughly clean and rinse all glassware with the supplied BWB Technologies deionised distilled water to ensure that it is clean and free of extractable sodium and potassium. Glassware should be acid cleaned and rinsed thoroughly in deionised double distilled water prior to use to avoid contamination from extractable metals under test.
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Flame photometer solution for unit for concentration sector - Monitoring and Testing - Laboratory Equipment
There are many different ways to express concentration of a solution. Molarity (M): Molarity is probably the most commonly used unit of concentration. It is the number of moles of solute per litre of solution (not necessarily the same as the volume of solvent). The SI unit of molarity is mol/dm3.
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Flame photometer solution for measurement of calcium in serum & urine - Monitoring and Testing - Laboratory Equipment
This method reduces or removes potential interference from sodium, potassium and phosphates normally present in serum and urine by diluting the samples with a diluent containing ethylenediaminetetraacetic acid (EDTA).
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Flame photometer solution for measurement of lithium in saliva sector - Monitoring and Testing
The use of lithium carbonate for the treatment of bipolar disorders and depression is well established. However, for the treatment to be effective, it must be managed closely, to ensure the dose is maintained within the normal therapeutic range.
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Flame photometer solution for measurement of calcium in DNA and DNP - Monitoring and Testing - Laboratory Equipment
The calcium content of aqueous solutions of deoxyribonucleic acid (DNA) and deoxyribonucleoprotein (DNP) cannot assayed directly because of interference effects. An acid extraction procedure enabled direct measurements of calcium in DNA and DNP, or a standard addition technique was used at higher concentrations.
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Flame photometer solution for measurement of potassium in unashed plant leaves - Monitoring and Testing - Laboratory Glassware
This procedure uses a TCA (trichloroacetic acid) extraction of the tissue to release all of the Calcium.
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Flame photometer solution for measurement of potassium in unashed plant Leaves - Monitoring and Testing
This method uses a suspension of ground plant material to directly measure the potassium concentration. It eliminates the usual steps of ashing and subsequent dissolution of the resulting ash. The method was compared to alternative methods such as chemical analysis and spectrophotometric methods. Collaborative studies using a range of samples gave a mean of 1.74% potassium by this extraction technique as compared to 1.75% by alternative methods. The standard deviation of an analysis in the two different sample ...
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Flame photometer solution for measurement of calcium in biological samples - Monitoring and Testing - Laboratory Equipment
A number of methods have been reported for the measurement of calcium in biological materials by flame photometry or titration. This method employs trichloroacetic acid (TCA) to precipitate the proteins and has been found to be adequate to extract all of the calcium from tissue samples. Sodium, potassium and phosphate caused no significant interference and calcium concentration in the range of 0 to 2 µg/ml is readily determined.
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Flame photometer solution for trace elements in biodiesel - Energy
BS EN 14108 and EN14109 (2003) Reference Method for Measurement of Trace Elements in Biodiesel 1,2. These methods are adapted from methods for the determination of sodium and potassium in fatty-acid methyl ester samples. The sample is diluted with an organic solvent (xylene, cyclohexane or petroleum ether) plus a stabiliser. These European Standards specify a method for the determination of potassium of equal to or greater than 0.5 mg/kg and sodium level equal to or greater than 1 mg/kg. This method is ...
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Flame photometer solution for measurement of sodium, potassium and calcium in plant extracts - Monitoring and Testing
The most important ions which naturally occur in plant tissues are sodium, potassium, calcium, magnesium, nitrate, sulphate and phosphate. A sample of 5 g of oven-dried plant material contains on average, 25 mg calcium, 9 mg magnesium, 80 mg potassium and 3 mg sodium. The recommended method for the measurement of calcium is to precipitate the calcium as an oxalate, the precipitate is then dissolved and measurement taken from the resulting solution. Sodium and potassium may be measured directly following an ashing ...
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Flame photometer solution for measurement of calcium and potassium in cereals - Monitoring and Testing - Laboratory Equipment
Commercial cereals vary considerably in composition, both in their formulation and the ingredients added to enrich these products. Sodium is the predominant cation in breakfast cereals, at levels reaching 8mg/g. Potassium and calcium also vary, particularly in wheat-based products and those enriched with milk products or calcium salts.
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Flame photometer solution for measurement of sodium and potassium in dried milk - Food and Beverage
Dried milk was dissolved into an aqueous solution for analysis via flame photometry. The test solutions and reference solutions are measured directly following dilution with deionised distilled water.
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Flame photometer solution for measurement of sodium and potassium in cheese - Food and Beverage
Cheese was wet ashed with a combination of acid and a high temperature oven to form a dissolvable product ready for analysis via flame photometry.
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Flame photometer solution for measurement of potassium and sodium in bread - Food and Beverage
Bread contributes about one-sixth of daily salt intake and is used to improve flavour and texture. The amount of sodium in bread can differ significantly, depending upon brand and type of grain used, ranging from 592mg/100g to 748mg/100g. The level of sodium in bread is primarily due to the amount of salt added to the dough during manufacture. The amount of potassium is determined by the type of flour and the washing and bleaching operations during cereal processing. Bread does not make a significant contribution ...
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Flame photometer solution for measurement of potassium and sodium in meat - Food and Beverage
Several different techniques can be used for sample digestion and extraction of sodium and/or potassium: oven ashing, perchloric acid ashing, extraction by boiling and acidification with HNO3 as well as extraction by homogenisation in 2% trichloroacetic acid (TCA).
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Flame photometer solution for measurement of calcium in fresh fruit - Food and Beverage
In most cases, it was found that flame photometry was well suited for the determination of sodium, potassium and calcium in fresh fruits, using the wet ashing technique as given below. There are significant differences in the composition between different varieties of the same fruit, although these differences are not usually considered to be nutritionally significant.
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Flame photometer solution for determination of sodium and potassium using emulsions and microemulsions for sample preparation - Monitoring and Testing - Laboratory Equipment
This technique allows use of aqueous standards for calibration rather than relatively unstable organometallic standards and harmful solvents for the extraction. Microemulsions are thermodynamically stable systems composed of water, oil and surfactant. In some cases, an alcohol is added as a co-surfactant.
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Flame photometer solution for salinity in processed foods - Food and Beverage
Sodium chloride is an essential ingredient of all processed foods;it is needed to enhance flavour and increase shelf life. In many processed foods, additional sodium is added as a flavour enhancer; potassium and calcium are also naturally present but not normally used as processing additives.
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Flame photometer solution for determination of sodium in biodiesel using dry decomposition for the sample preparation - Monitoring and Testing - Laboratory Equipment
This method allows the analyte to be pre-concentrated in the final solution, decreases the volume of strong acid used in the dissolution stage and does not use organic solvents.
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Flame photometer solution for measurement of low concentrations of sodium in cement - Construction & Construction Materials - Cement
This method allows the direct measurement of low levels of sodium without prior extraction procedures, which minimises possible sources of contamination.
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Flame photometer solution for measurement of sodium and potassium in silicate rocks - Monitoring and Testing
This method for the measurement of sodium and potassium in silicate rocks uses a borate fusion technique.The sample is fused with a suitable fusion agent such as boric acid (H3BO3) and lithium carbonate (Li2CO3) and the ground product is dissolved in dilute citric acid.The presence of other metals such as aluminium, calcium, iron, magnesium and silicon should not interfere with the measurement of sodium or potassium using this method.
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Flame photometer solution for measurement of lithium in minerals - Water and Wastewater
This method has been adapted to enable measurement of lithium over a wide range of concentrations (0.10 to >8.0%), in lithium containing materials.
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