Technologies Used in Aluminum Manufacturing to Improve Efficiency and Productivity

Advanced technologies applied throughout the process to gain efficiencies, improve quality, and enhance business performance.

Aluminum 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 aluminum production processes with a focus on increasing your profitability. 

Emissions analysis

Our Continuous Emission Monitoring Systems (CEMS) monitor a complete spectrum of process gases during various stages of production, including but not limited to: SO2, NOx, CO, CO2, H2S, TRS, THC, Hg, O2, HCl, and Total Sulfur using a combination of technologies, depending on your requirements for elemental detection and measurement. These technologies can include Nondispersive Infrared (NDIR), used to measure carbon monoxide, carbon dioxide, HCl, and other infrared-absorbing gases; Chemiluminescence for the measurement of nitrogen-based compounds; Pulsed Fluorescence for the determination of SO2; Flame Ionization Detection (FID) for hydrocarbons measurement to meet the criterion of USEPA Methods 25A and 25B; Atomic Fluorescence; transmissometers for opacity monitoring; cross-stack and in-stack ultrasonic monitors for determining flow of gas stream; 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.

42iQ NO-NO2-NOx Analyzer

The Thermo Scientific  42iQ NO-NO2-NOx Analyzer provides the same level of performance when measuring nitrogen oxide (NO-NO2-NOx) in the emissions from a source using chemiluminescent technology.

43iQ Sulfur Dioxide Analyzer

The Thermo Scientific 43iQ Sulfur Dioxide Analyzer provides the same level of performance when measuring sulfur dioxide (SO2) in ambient air up to 100ppm using pulsed fluorescence technology.

48iQ Carbon Monoxide Analyzer

The Thermo Scientific 48iQ Carbon Monoxide Analyzer provides the same level of performance to detect carbon monoxide poisoning when measuring the amount of carbon monoxide (CO) in ambient air using the gas filter correlation technique.

410iQ Carbon Dioxide Gas Analyzer

The Thermo Scientific 410iQ Carbon Dioxide Gas Analyzer (CO2 analyzer) provides the same level of performance when measuring the concentration of carbon dioxide (CO2) in emissions using advanced NDIR optical filter technology.

Laboratory automation

Aluminum manufacturers can further drive process control and efficiencies in their applications with laboratory automation technologies. Both OES and 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, increase sample processing cadence, and improve the availability of automatic sample preparation in highly critical production control environments.

ARL SMS-2300 Robotics-Based Automation for OES or XRF

The Thermo Scientific ARL SMS-2300 system combined with an OES or XRF instrument is an automated quality control solution to optimize your aluminum production operations. With the high-performance ARL SMS-2300 system, even complex samples are prepared and analyzed under reproducible conditions without operator intervention, so that human variables and subjective factors are eliminated. The result is increased production, reliable results, lower costs, and fast payback.

ARL SMS-3300 Automation for Single or Twin OES or XRF

Drive process control laboratory efficiencies with the Thermo Scientific ARL SMS-3300 Automation for Single or Twin OES or XRF, a complete laboratory workflow automation solution. The automation of single or dual spectrometers and preparation machine with the ARL SMS-3300 system offers reduced sample analysis cost, increased sample throughput, better reproducibility and higher quality results for users requiring more comprehensive and integrated automation solutions.

ARL SMS-3500 Automation for Twin OES or XRF

Drive process control laboratory efficiencies with the Thermo Scientific ARL SMS-3300 Automation for Twin OES or XRF, a complete laboratory workflow automation solution. The automation of single or dual spectrometers and preparation machine with the ARL SMS-3500 system offers reduced sample analysis cost, increased sample throughput, better reproducibility and higher quality results for users requiring more comprehensive and integrated automation solutions.

ARL SMS-XY Automation for XRF

The Thermo Scientific ARL SMS-XY Automation for XRF permits continuous and unattended operation of Thermo Scientific ARL 9900 series X-ray Spectrometers. 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.

 

The ARL SMS-XY automated sample loader allows connection the Thermo Scientific ARL PERFORM'X or ARL 9900 Series X-ray Spectrometers to fully automatic preparation machines. The prepared sample, usually a pressed pellet, is conveyed on a transport belt from the press to the spectrometer. Continuous and unattended operation is ensured through the supervision of an engineering company software.

Optical Emission Spectrometry (OES)

Optical emission spectroscopy (OES) uses Arc/Spark excitation to perform rapid elemental analysis of solid metallic samples, from trace to percent element concentration levels. This technique meets the most demanding analytical needs of metallurgical industries and analysis laboratories, from production control to R&D, and from incoming material inspection to scrap sorting. OES metal analyzers can also be used for fast, online evaluation of non-metallic micro-inclusions.

ARL iSpark Plus Series OES Metal Analyzer

From routine elemental analysis to metals R&D, the Thermo Scientific ARL iSpark Plus Series OES Metal Analyzer provides the solution sought by primary metals producers, foundries, fabricators in the automotive, aviation and appliance industries, contract laboratories, and recyclers. Adapted to the harshest environments, ARL iSpark Plus offer a high degree of functionality and features to achieve productivity and quality objectives. ARL iSpark Plus adds to the stability, availability, and speed of analyses, enabling production of more heats and a faster return on investment.

ARL easySpark Metal Analyzer

The Thermo Scientific ARL easySpark Metal Analyzer is a compact, benchtop optical emission spectrometer for the elemental analysis in iron and steel, aluminum, or other metals. The instrument is an affordable solution for quality and productivity improvements in any metallurgical operation in foundries, metal processors, and other metallurgical industries and laboratories. It allows quality control, sorting of incoming/outgoing materials, or in-process production control with a wide element coverage.

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

PGNAA and PFTNA are noncontact, non-destructive analytical techniques used in online analysis systems to determine the elemental composition of materials.  Both techniques are known collectively as neutron activation analysis and function by bombarding materials with neutrons.

 

Used for real-time quality control in process optimization, PGNAA/PFTNA provides high frequency online elemental analysis, delivering minute-by-minute, uniform measurement of the entire material stream, not just a sample. Aluminum manufacturers can benefit from this technology to enhance quality control and improve process efficiencies.

In addition, using PGNAA/PFTNA to analyze the incoming coal delivers valuable information on levels of sulfur, moisture, total ash, calorific value, ash elemental concentration, and other critical parameters. This information is used to help maximize the use of resources, enable optimal blending for precise burn and temperature requirements, and reduce pollutants.

CB Omni Agile Online Elemental Analyzer

The Thermo Scientific CB Omni Agile Online Elemental Analyzer 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. The system helps control the sinter feed basicity and provides a more consistent feed to the sinter strand.

CQM FLEX Coal Analyzer

The Thermo Scientific CQM FLEX Coal Analyzer minimizes variations in coal quality, helps ensure contract compliance, and improves efficiency.  The 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.

ECA-3 Elemental Crossbelt Analyzer

The Thermo Scientific ECA-3 Elemental Crossbelt Analyzer uses Prompt Gamma Neutron Activation Analysis (PGNAA) technology to help facilitate coal sorting, blending, and out-of-seam dilution control. The ECA-3 is designed to mount around an existing conveyor belt and analyze the composition of the total burden of coal on the belt in real-time.

Process Mass Spectrometry

A key requirement in aluminum production is to ensure furnaces operate at maximum efficiency. Analysis of the off-gas from the furnace is a vital part of the process control strategy to control and optimize the conversion of carbon-to-carbon monoxide and carbon dioxide. Process mass spectrometers provide real time off-gas analysis data to furnace control systems and dynamic control models, resulting in significant process benefits.

The ability to measure a wide range of components on a single analyzer, coupled with advanced calibration, data transmission, and self-diagnostic software, makes the modern mass spectrometer ideal for integration into the plant. On blast furnaces, superior gas analysis is used to calculate gas efficiency, mass & heat balances, and heat profiles through probe analysis, as well as being an essential tool in the early detection of cooling water leaks and sample system failures.

Prima PRO Process Mass Spectrometer

The Thermo Scientific Prima PRO Process Mass Spectrometer provides comprehensive gas analysis, enabling integrated steel/ aluminum mills and mini-mills to efficiently monitor primary and secondary conversion methods. The Prima PRO Process Mass Spectrometer is built to meet the specific needs of today’s modern aluminum producers such as determining the endpoint of a batch process or rapidly updating control parameters on continuous processes.

Radiation detection

Infinitely recyclable aluminum has led to a supply chain where more than 80% of US production today comes from recycled (or secondary) aluminum. Since it is often produced from scrap metal, where medical equipment or other industrial items that contain radioactive sources could be part of the bundle, it must be carefully screened to prevent radioactive material from contaminating the scrap metal recycling stream.

Radiation detection technology used in scrap metal recycling includes portal monitoring systems for incoming raw materials and handheld radiation detection devices which provide real time detection of gamma radiation with accurate dose rate measurements, verification of the radioactive material founded, and assess whether radioactivity is of natural or artificial (man-made) origin. Portable devices with high gamma and neutron sensitivity ensure a fast response to alarm thresholds can be worn to monitor gamma sensitivity and energy compensated dose rate measurement.

ASM-IV Automatic Scrap Monitoring System

The Thermo Scientific ASM-IV Automatic Scrap Monitoring System is a configurable platform to prevent radioactive materials from entering scrap metal and metal processing workflow resulting in expensive plant decontamination and shutdown. Offering unparalleled sensitivity and reliability, the ASM-IV system provides the perfect solution for portal monitoring applications that require the lowest possible alarm thresholds. 

RadEye SPRD and SPRD-ER Personal Radiation Detector

The Thermo Scientific RadEye SPRD and SPRD-ER Personal Radiation Detector alerts workers to potential radiation exposure at greater distances without increasing false alarms. The unique combination of detector sensitivity and intelligent alarming helps ensure detection in the most challenging cases while eliminating nuisance alarms. Additionally, the SPRD identifies the nature of the discovered material in a manner configurable for your operation or user skills – from simple artificial vs. natural distinction; to industrial, SNM, and medical classification; to full spectroscopic analysis.

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.

Thickness and coating weight measurement

Non-contact and non-destructive thickness and coating weight measurements are needed to achieve high product quality and maximum productivity. Online thickness and coating weight gauges for hot- and cold-rolling mills provide precise, real-time measurements during high-speed production of aluminum sheet. 

Gauges for Aluminum Rolling Mills

Aluminum production is very complex and requires highly technical solutions to ensure the finished material meets precise specifications. Thermo Scientific Gauges for Aluminum Rolling Mills meet this challenge with a comprehensive alloy compensation algorithm that provides accurate, non-contact thickness measurement in the high-speed production environment of aluminum cold strip for even the most specialized alloys and clad products.

Non-contact Paint Thickness Gauge

Optimizing yield requires not just changing paint and coating rolls, but efficiently controlling the coating to the target thickness value for the end use. Thermo Scientific RM 300 EL and PROSIS Non-contact Coating Weight Gauges provide online measurement of primer and finish coatings to help minimize the time required to bring the coater settings to target.

Non-contact Oil Thickness Gauge

The Thermo Scientific PROSIS Coating Weight Sensor employs the principle of infrared absorption to accurately determine the thickness of oil and other hydrocarbon-based lubricants applied to metal sheet.  The sensor is typically on a scanner frame positioned on the sheet processing line after the oiler, but before coiling. By scanning from edge to edge across the sheet, the PROSIS sensor inspects the surface of the metal sheet for uniform oil coverage.

X-ray Fluorescence (XRF, EDXRF, WDXRF)

X-ray fluorescence (XRF) spectroscopy 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 getting irradiated by a primary X-ray source. Each of the elements present in a sample produces a set of characteristic fluorescent X-rays lines like a fingerprint.  These fingerprints are distinct for each element, making XRF spectroscopy an excellent tool not only for qualitative analysis but also for quantitative measurements when processing the intensity of the emitted lines. In aluminum production, XRF is used for analysis of raw materials, slags, and alloys. Critically, XRF used in combination with XRD enables process control of the aluminum electrolysis process.

A convenient front-end analysis tool, EDXRF (energy-dispersive XRF) enables quick and easy analysis of even irregular samples with little-to-no sample preparation. WDXRF (wavelength-dispersive XRF), meanwhile, is the standard test method for a wide range of applications due to its outstanding sensitivity and high resolution.

Niton XL5 Plus Handheld XRF Analyzer

The Thermo Scientific Niton XL5 Plus Handheld XRF Analyzer delivers best in class performance for both accuracy and sensitivity in field-elemental analysis. It is the ultimate instrument for fast sorting of aluminum scrap, incoming and outgoing quality control of aluminum alloys and other metal as well as for metal coating thickness measurements. Innovative design allows for instant, actionable data for quick decision making in critical situations, even on the manufacturing floor.

Niton XL2 Plus Handheld XRF Analyzer

When durability, performance and productivity are top of mind, industrial businesses rely on the Thermo Scientific Niton XL2 Plus Handheld XRF Analyzer for fast alloy identification and accurate elemental analysis. The Niton XL2 is the ideal tool for aluminum scrap sorting and common quality control missions.

ARL 9900 Pot Flux Analyzer

The Thermo Scientific ARL 9900 Pot Flux Analyzer allows excellent process control in your aluminum electrolysis process with both chemical and phase analysis in one simple operation. The analyzer combines X-ray fluorescence (XRF) and X-ray diffraction (XRD) technologies for a better and more complete characterization of any given crystalline sample.

ARL QUANT'X EDXRF Spectrometer

The Thermo Scientific ARL QUANT'X EDXRF Spectrometer provides major, minor, and trace element quantification for mining ores and metallurgical slags. It offers excellent performance, versatility, and reliability in elemental analysis. Its compact desktop design, close-coupled optics and advanced electrically cooled detectors allow for high 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 for advanced materials characterization integrates bulk elemental analysis with mapping and small spot analysis to create a solution that evaluates up to 90 elements in nearly any solid or liquid sample. With the ARL PERFORM'X spectrometer, analysis of materials in varied sizes, coatings, layers, heterogeneities and inclusions, or requiring wide elemental coverage, wide concentration ranges, and varied samples matrices is achieved with desired precision and limits of detection. It is recommended for major, minor, and trace elemental analysis in iron, steel, and aluminum.

ARL OPTIM'X WDXRF Spectrometer

Meet demanding materials analysis requirements with qualitative and quantitative characterization of all types of conductive and non-conductive unknown samples. The Thermo Scientific ARL OPTIM'X WDXRF Spectrometer provides all the benefits of wavelength dispersive x-ray fluorescence (WDXRF), one of the most versatile methods for elemental analysis of solids and liquids. The system is available in four preconfigured packages specifically suited for analysis in the petroleum, cement and slags industries or for multi-purpose requirements in analytical laboratories.

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. 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.

X-ray Diffraction (XRD)

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. XRD permits analysis of the phases or compounds in crystalline materials such as bauxite rocks, purified oxides and complex fluorides. In a typical crystalline sample, XRF might measure for example the total Al concentration. In the same sample, XRD takes the analysis a stage further and gives information about Al(OH)3, Al2O3, AlF3 contents and other Al phases.

 

Additionally, XRD allows to conveniently determine the quality of calcined petroleum coke which is the most common electrode material in Al electrolysis by determining the crystallite size Lc.

ARL X'TRA Companion

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.

For Research Use Only. Not for use in diagnostic procedures.