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Advanced technologies for cement manufacturing to gain efficiencies, improve product quality and profitability

Cement manufacturing methods and processes must evolve with increasing speed to accommodate market demands, competitive pressures, new economic realities, and governmental regulations. Thermo Fisher Scientific continues to be your most trusted industry partner in developing and applying technologies that improve the cement manufacturing process with a focus on increasing your profitability.  Explore advanced technologies and how they can be applied to benefit your operations.


Prompt Gamma Neutron Activation Analysis/Pulsed Fast Thermal Neutron Activation (PGNAA/PFTNA)

Used for real-time quality control in process optimization, PGNAA/PFTNA provides high frequency online elemental analysis of an entire raw material process stream. Analyzers using PGNAA/PFTNA are situated directly on the conveyor belt and penetrate the whole raw material cross-section, delivering minute-by-minute, uniform measurement of the entire material stream, not just a sample or surface reading. Cement manufacturers can benefit from this technology in two key ways: quality control of raw materials, and managing coal power generation at their plant.

 

The key elemental components for cement are calcium, aluminum, iron, and silicon. However, sometimes unwanted elements such as magnesium oxide, and alkalis such as sodium, potassium, and sulfur exist within the limestone, clay, and sandstone that are adverse to the process. In these cases, PGNAA technology allows the end user to monitor MgO levels in the limestone and adjust accordingly.

 

This technology is also useful to control the coal blend that powers the plant. This allows cement producers to “mix” low-cost coals with higher costs coals to provide additional cost savings in fuel and a consistent feed to the kiln.

CB Omni Agile Elemental Analyzer

The Thermo Scientific CB Omni Agile uses PGNAA/PFTNA technology to provide real-time online elemental analysis of an entire raw material process stream and delivers the ability to blend, sort and monitor product quality without the need for continuous sampling.

 

ECA-3 Elemental Crossbelt Analyze

The Thermo Scientific ECA-3 Elemental Crossbelt Analyzer is the first on-the-belt, full-stream analyzer to use Prompt Gamma Neutron Activation Analysis (PGNAA) technology, a technique pioneered and commercialized by Thermo Fisher Scientific in 1984 that has been widely employed for online elemental coal analysis of sample streams.

 

CQM Flex

The Thermo Scientific CQM Flex can incorporate an electrically-driven neutron generator, or Californium (252Cf) as its source of neutrons to meet the needs of various application requirements. The CQM FLEX measures and reports levels of sulfur, moisture, total ash, calorific value, ash elemental concentration, and other critical parameters required by both coal consumers and producers to maximize the use of coal resources and reduce pollutants.

CB Omni-R

The Thermo Scientific CB Omni-R package replaces outdated and potentially obsolete analog electronics with modern, state-of-the-art and highly reliable digital electronics. The new CB Omni Random Pulse Processor 4 (RPP4), included in the upgrade, is the most advanced digital signal processor on the market today specifically designed by our scientists and engineers for PGNAA online analyzers.

 


X-ray fluorescence

X-ray fluorescence spectroscopy (XRF) is a non-destructive analytical technique used to determine the elemental composition of materials. XRF analyzers work by measuring the fluorescent (or secondary) X-rays emitted from a sample when excited by a primary X-ray source. Each of the elements present in a sample produces a set of characteristic fluorescent X-rays, or “unique fingerprints.” These fingerprints are distinct for each element, making XRF analysis an excellent tool for quantitative and qualitative measurements. In cement manufacturing, XRF is used for analysis of raw materials, clinker, and finished product.

Niton XL2 Plus Handheld XRF Analyzer

The Thermo Scientific Niton XL2 Plus Handheld XRF Analyzer lets you confidently perform elemental analysis anywhere in the plant or field.  When durability, performance, and productivity are top of mind, industrial businesses rely on the Niton XL2 Plus handheld XRF analyzer for fast results and low detection limits. Identify material composition and contaminants or obtain geochemical data. The Niton XL2 Plus provides operators the ability to scan a broad range of materials in one versatile analyzer.

ARL OPTIM'X Cement Analyzer

The Thermo Scientific ARL OPTIM'X Cement Analyzer provides all the advantages of wavelength dispersive X-ray elemental analysis at a fraction of the cost of higher-powered systems. Its innovative optics, small footprint, and ease of operation and maintenance lead to a significantly lower cost of ownership without sacrificing precision or sensitivity.

ARL X900 Simultaneous Sequential XRF Spectrometer

The Thermo Scientific ARL X900 Spectrometer is a strong and reliable XRF analyzer with XRD capabilities designed for modern cement production and process control. It provides precise and quick elemental analysis results to meet various process control needs. Built for reliability and durability, it can handle tough industrial environments. The ARL X900 spectrometer features a safe 'tube above' design and a large vacuum chamber that ensures stable analytical conditions, reducing the need for unplanned maintenance and ensuring excellent short- and long-term stability for accurate results. 

ARL QUANT’X EDXRF Spectrometer

The Thermo Scientific ARL QUANT'X EDXRF spectrometer offers performance, versatility and reliability of elemental analysis. Its compact desktop design, close-coupled optics and advanced electrically cooled detectors provide analytical precision in a wide dynamic range from ppm to percent elemental concentrations.

ARL PERFORM'X Sequential X-Ray Fluorescence Spectrometer

The Thermo Scientific ARL PERFORM'X Sequential X-Ray Fluorescence Spectrometer can evaluate up to 90 elements in nearly any solid or liquid sample. Industries as diverse as metallurgy, petroleum, polymers, mining, glass, cement, and refractories as well as labs dealing with geochemistry, materials science, environmental research, and forensics will benefit from its performance and versatility. Additionally, this innovative spectrometer integrates bulk elemental analysis with mapping and small spot analysis for advanced materials characterization.


X-ray diffraction

Quickly obtain detailed phase and structural information of your crystalline materials using X-ray diffraction (XRD), a versatile and nondestructive analytical technique. The discovery of X-ray diffraction (Bragg’s Law) enabled physicists, chemists, material scientists and metallurgists to study structure-property relationships leading to a multitude of new discoveries in materials science and technology.

While X-ray fluorescence (XRF) analysis determines the elemental composition of a sample, it does not provide information about how the various elements are combined together.  Such mineralogical information is only available through X-ray diffraction. In a typical crystalline sample, XRF might measure for example the total Ca concentration. XRD permits analysis of the phases or compounds in crystalline materials such as rocks, minerals and oxide materials and products. In the same sample, XRD takes the analysis a stage further and gives information about CaO, CaCO3, Ca(OH)2 contents and other Ca phases.

ARL X’TRA Companion X-ray Diffractometer

Advanced benchtop X-ray diffractometer. Thermo Scientific ARL X’TRA Companion is a θ/θ Bragg-Brentano benchtop X-ray diffractometer perfectly suited for routine analysis thanks to a state-of-the-art configuration, using the latest technical features to grant accuracy, precision, safety and ease of use.

 

ARL EQUINOX 100 X-ray Diffractometer

The Thermo Scientific ARL EQUINOX 100 X-ray Diffractometer is a dedicated XRD instrument for QA/QC applications.  Occupying a third of the space of a conventional diffractometer, this stand-alone, transportable benchtop instrument offers true flexibility. No external water cooling is required, and it plugs into a standard electrical power outlet. This instrument simplifies operation without sacrificing speed or performance. Thanks to a specific real time detection mode, measurements are completed in a few seconds.


Radiation detection

Mining industries and those that utilize mined minerals are exposed to a variety of naturally occurring radiation sources.  And because of the extensive use of radioactive measurement and analysis techniques (e.g. X-ray and Gamma ray analyzers) in cement production, the potential for exposure increases dramatically.  Both natural and man-made sources of radiation are potentially dangerous and life threatening if not managed appropriately.

Detection of various types of radiation throughout the manufacturing process is paramount to worker safety and quality control.  Radiation detection technology can be delivered by way of multiple devices, each suited for the type of radiation to be monitored, the environmental circumstances, and source.

Handheld radiation detection devices provide real time detection of gamma radiation with accurate dose rate measurements, verify the radioactive find and assess whether radioactivity is of natural or artificial (man-made) origin. Portable devices with high sensitivity neutron response and alarm threshold can be worn to monitor gamma sensitivity and energy compensated dose rate measurement.

RadEye Area Monitor

Extend the application range to convenient and cost-effective gamma and neutron area monitoring with the Thermo Scientific RadEye Area Monitor. The enclosure adapts several different types of RadEye instruments for area monitoring applications.

 

RadEye B20 and B20-ER Multi-Purpose Survey Meters

Quickly identify mixed radioactive surface contamination in facility and field environments with the Thermo Scientific RadEye B20 and B20-ER Multi-Purpose Survey Meters. Simple, robust and reliable contamination and dose rate measurement tools for characterizing alpha, beta, gamma and X-ray radiation. RadEye B20 and B20-ER Multi-Purpose handheld Geiger counters provide an on-site solution for industrial workers.

RadEye SPRD and SPRD-ER Personal Radiation Detectors

Respond quickly and decisively to real radiation threats with the new standard in detection and interdiction of illicit radiation. The Thermo Scientific RadEye SPRD and SPRD-ER Personal Radiation Detectors are handheld radiation monitors that offer a unique combination of detector sensitivity and intelligent alarming to help ensure detection in the most challenging applications while eliminating nuisance alarms. Additionally, the RadEye SPRD and SPRD-ER radiation detector identifies and categorizes specific types of radiation or radioactive material,and can be configured to support your missions or user skills.


Informatics

The advanced materials analysis instrumentation available to cement producers delivers unprecedented improvements in productivity, efficiency, and profitability.  These improvements can be further extended through specialized software and informatics.  Our systems offer connectivity across and between lab and field instruments, deliver rich information analysis, optimized management controls, and advance the usefulness of your equipment.  By connecting XRF and PGNAA elemental analyzers, for example, you can compare data from both systems to ensure peak operational efficiency.  Other specialized software enables benefits like the automatic, real-time adjustment of raw material feed rates for maximized productivity and quality control.  Our advanced, specialized informatics systems for the cement industry add another layer of return on your technology investment.

AccuLINK

Thermo Scientific AccuLINK is an easy-to-use software package that provides automatic implementation of calibrations into your online analyzer system. The package compares the results of your online crossbelt analyzer with the site laboratory and provides both a statistical and graphical data analysis. By having your online analyzer operating at peak accuracy, the kiln feed will be more consistent, which can lead to greater throughput, fewer BTUs of coal burned per ton of clinker, less electrical cost per ton of clinker and longer brick life.

RAMOS (Raw Mix Optimization Software)

Automatically adjust multiple raw material source feeds to optimize blend proportioning, reduce chemistry variability, and minimize cost with software designed specifically to use high frequency analysis provided by online analyzers. Thermo Scientific RAMOS (Raw Mix Optimization Software) works with a cross belt online analyzer to monitor the chemistry of the raw material being carried on a conveyor and automatically issues optimal blend proportions to meet quality control targets.

COBOS (Coal Blend Optimization System)

Satisfy customer specifications for high quality coal blends while achieving more cost-effective, efficient operations. The Thermo Scientific COBOS Coal Blend Optimization System controls coal sorting and coal blending equipment with software that continuously monitors coal quality. The system blends up to six coal sources to make a "recipe" consisting of up to five quality parameters, such as ash, sulfur, moisture or even ash oxides or ratios of ash oxides. Blend recipes can be predefined for different quality targets and priorities while using fewer high cost or scarce coal resources.


Laboratory automation

Cement manufacturers can further drive process control and efficiencies in their applications with laboratory automation technologies. XRF spectrometers can be fully automated to increase throughput, improve analysis accuracy and decrease costs. This level of automation delivers a complete laboratory workflow solution and can reduce response times, increases sample processing cadence, and improve the availability of automatic sample preparation in highly critical production control environments.

ARL SMS-XY Automation for XRF

Increase your capacity to handle more samples in less time. The Thermo Scientific ARL SMS-XY Automation for XRF permits continuous and unattended operation of Thermo Scientific ARL 9900 series X-ray Spectrometers or Thermo Scientific ARL PERFORM'X WDXRF Spectrometer. Increased automation brings increased analysis quality, lower analysis costs, a more sustainable analysis cadence with predictable and reproducible response times, and a short payback period.

 


Emissions analysis

We have devoted nearly forty years to perfecting the design and execution of demanding operational and environmental monitoring systems. Our state-of-the-art technologies, along with long-term distinguished industry performance, are qualities incorporated with each delivered system.

Our gas and particulate emissions analyzers detect and monitor a complete spectrum of process gases during various stages of production, including but not limited to NO, NO2, NOx, SO2, CO, CO2, Ozone, non-methane hydrocarbons and other gases that a user may require.  Our analyzers utilize a variety of technologies which can include Nondispersive Infrared (NDIR), Chemiluminescence; Pulsed Fluorescence, and Flame Ionization Detection (FID), Atomic Fluorescence; transmissometers, ultrasonic monitors and full extractive and dilution extractive probes. Using a combination of these technologies, you can achieve compliance with regulatory guidelines while meeting your own specific air quality monitoring needs.  These systems are designed to meet US EPA 40CFR Parts 60 and 75 standards while providing unsurpassed sensitivity, accuracy and reliability.

iQ Series Instrument Platform

The Thermo Scientific iQ Series Instrument Platform is a smart environmental monitoring solution for ambient and source gas analysis that affords greater control over instrument performance and data availability. The iQ Series Gas Analyzers are engineered to get smarter over time and help minimize troubleshooting time with a highly precise, yet tough solution.

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