Measurement and Testing
State-of-the-art elemental analyser provides precise carbon and sulphur determination for energy sector and a host of other demanding industries
13
Ultrameter II™ Water Quality Analyzer
Replace up to 6 laboratory instruments with one portable, handheld meter for fast fi eld analysis ! Myron L®
Company’s Ultrameter II 6PFCE
provides a comprehensive suite of in- situ water quality analysis tools that are designed to replace more costly and less convenient laboratory equipment. A true one-handed instrument, the 6PFCE
delivers
Conductivity, Resistivity, TDS, pH, ORP, Free Chlorine Equivalent (FCE™), and Temperature measurements quickly and easily with the press of a button.
Mol Analytik GmbH’s CS1000 elemental analyser provides a perfect solution to accurately determine carbon and sulphur content in solid, mainly organic samples. This advanced instrument offers peace- of-mind elemental analysis across a wide range of industries, including energy generation, refi neries, the chemical sector, thermal power plants, coal and mining, foundries, environmental monitoring, recycling plants, and the cement industry.
The CS1000 elemental analyser has the capability to characterise a wide range of solid, mainly organic samples, ranging from oil, rubber, waste to ash, bauxite, soil, catalysts, ceramics, plastic, coal, coke, soot, sand, slag, and clay. In industries where product quality and chemical composition are of utmost importance, such as mining, geology, and coal, this analyser plays a central role in ensuring precision and reliability.
The instrument’s operational principle is based around generating gases, including CO2
H2 O, and SO2 , during the
sample combustion process which undergo meticulous cleaning and moisture removal before detection by use of non-dispersive infrared (NDIR) detectors. The fl exible analyser accommodates up to four independent, selective wide-range infrared detectors which can be confi gured according to the end-user’s specifi c requirements. Results are then calculated and reported based on sample weight using specialised software.
The CS1000 operational reliability is based on the absorption of infrared light by gases. Each gas has a distinct spectral absorption pattern which is intricately linked to the number and type of atoms in the gas molecules. Mol Analytik have integrated modulable infrared emitters that enable rapid temperature cycling and are signifi cantly more powerful and cost- effective than the incandescent emitters ubiquitous to conventional gas spectroscopy.
The modulable infrared emitter emits narrow-band, pulsating infrared light; these are crystal-controlled for frequency stability. The infrared light passes through the measuring cuvette which contains the measuring gas/carrier gas mixture. Depending on the composition of the gas mixture, only specifi c infrared spectrum frequencies are absorbed, with absorption intensity correlating with gas concentration. The infrared beam will then reach a semiconductor infrared detector, which emits an electrical signal which is proportional to the radiation intensity. When the infrared light pulsates, the semiconductor infrared detector will output an alternating signal, compensating for temperature, aging effects and noise. Downstream electronics amplify and rectify the signal, presenting it as direct voltage at the non- dispersive infrared (NDIR) detector’s output.
The CS1000, as well as all high-temperature furnaces in the Mol Premier®
series, can be
operated with central evaluation and control software, available in over 80 different languages for user accessibility across the globe.
For More Info, email: email:
For More Info, email: email:
61273pr@reply-direct.com
WWW.PETRO-ONLINE.COM
www.myronl.com 760-438-2021
Unlike other similar meters, the 6PFCE Conductivity/TDS functions feature three preprogrammed solution modes, KCl, NaCl, or Myron L’s own 442 Natural Water™ Standard, or you can program a User solution mode based on a known solution yourself. The result is benchtop accuracy of ±1% of reading in a handheld instrument. Accuracy increases to ±.1% of reading at calibration point. Temperature compensation is automatic to 25°C or can be disabled by the user as required. Autoranging capabilities provide increased reading resolution across a broad range of applications.
pH readings are also temperature compensated, and you can choose to perform a 1-, 2-, or 3-point calibration depending on the range of samples measured to achieve ±.01pH accuracy. The pH sensor is of a proprietary construction and includes a large potassium chloride solution reservoir for longer life. Myron L pH sensors are also user replaceable, extending the useful life of the 6PFCE
.
The ORP sensor utilizes a 99.9% pure platinum electrode and a reference junction that is shared with the pH sensor. Measurement accuracy is ±1 millivolt.
In addition, the 6PFCE features a groundbreaking new way to derive Free Available Chlorine from a predictive ORP value
and the actual pH of water. In systems where chlorine is the only sanitizer, this method accurately determines the chemical concentration of free chlorine without the hassle and subjectivity of colorimetric and test-strip methods.
Calibration and maintenance are simple, so the 6PFCE can be serviced by the user. The 6PFCE is also IP67 dust-tight and
waterproof, NEMA 6 submersible, and buoyant. Plus, Myron L service and technical support are included for the life of the product. More information online:
ilmt.co/PL/Y05o
For More Info, email: email:
For More Info, email: email:
For More Info, email: email:
Ultrameter ll™ A new level of outstanding performance...
E
Conductivity, Resistivity, TDS ORP/Free Chlorine Equivalent (FCE TM pH, Temperature
)
58228pr@reply-direct.com
Page 1 |
Page 2 |
Page 3 |
Page 4 |
Page 5 |
Page 6 |
Page 7 |
Page 8 |
Page 9 |
Page 10 |
Page 11 |
Page 12 |
Page 13 |
Page 14 |
Page 15 |
Page 16 |
Page 17 |
Page 18 |
Page 19 |
Page 20 |
Page 21 |
Page 22 |
Page 23 |
Page 24 |
Page 25 |
Page 26 |
Page 27 |
Page 28 |
Page 29 |
Page 30 |
Page 31 |
Page 32 |
Page 33 |
Page 34 |
Page 35 |
Page 36 |
Page 37 |
Page 38 |
Page 39 |
Page 40 |
Page 41 |
Page 42 |
Page 43 |
Page 44
