CB Omni™ Fusion Online Elemental Analyzer

Optimize efficiency, reduces costs, and ensure high quality with high frequency, online elemental analysis of your raw materials.

Catalog Number	Description
CBOMNIFUSION	CB Omni Fusion Online Elemental Analyzer

Catalog number CBOMNIFUSION

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Description:

CB Omni Fusion Online Elemental Analyzer

Perform real-time quality control for process optimization. The Thermo Scientific™ CB Omni™ Fusion Online Elemental Analyzer provides high frequency online elemental analysis of an entire raw material process stream using Prompt Gamma Neutron Activation Analysis (PGNAA) or Pulsed Fast Thermal Neutron Activation (PFTNA). The CB Omni Fusion delivers consistent material quality improves process efficiency and minimizes production costs in a variety of different process and mining operations: Limestone, Copper, Iron Ore, Nickel, Phosphate, Cement Production, Iron Ore Sintering and more.

The CB Omni Fusion analyzer uses either PGNAA or PFTNA, depending on the excitation source selected, to continuously measure in real time the elemental composition of an entire raw material stream being carried on a conveyor belt without touching the materials, and without the errors and costs associated with material sampling for off-line laboratory analysis.

Thermo Scientific™ Omni View software provides the unique and powerful interface for the CB Omni Fusion. This state-of-the-art software processes, displays and archives data while at the same time tracks and monitors the health of the instrument. Omni View is highly configurable and allows users to get the most from their online analysis instrument. What is more, Omni View is capable of running on any number of remote workstations that are on the same network as the main, CB Omni Fusion, operator console.

Features

Can use either isotope Cf-252 or a neutron generator as excitation source
Uses 1 to 4 efficient, large volume detectors
Modular design for easy installation, no building required
Fits onto existing conveyor truss without needing to cut the conveyor support structure
Belt widths from 0.6m (23.6 in) to 1.8m (70.8 in)
Variable tunnel heights to accommodate process conditions
Uses proprietary Automatic Belt Load Compensation for superior, robust accuracy
State-of-the-art electronics
Flexible plant connectivity
Comprehensive user interface
Highly configurable and extremely flexible Omni View HMI, with an unlimited number of remote connections
Onboard Thermo Scientific™ AutoDiagnostics tool

Benefits

Blend, sort and monitor product quality in real-time
Removes need for continuous sampling
Minimizes use of highest cost, most expensive materials
Yields consistent product quality
Reduces effects of process upsets
Increases mill throughput
Reduces energy consumption
Extends refractory life

Applications

The CB Omni Fusion is a powerful process optimization tool that can be used in applications such as:

Mine Grade Control & Optimization
Material Sorting and Blending
Reagent Control

When coupled with optional automated process control software from Thermo Fisher Scientific, such as RAMOS (Raw Mix Optimization Software) or PREBOS (PreBlending Optimization Software), the CB Omni Fusion becomes a fully-featured automated control tool. RAMOS and PREBOS use the high frequency analysis provided by the CB Omni Fusion to automatically control raw material feeds to optimize blend proportioning.

Another unique and optional software package designed for the CB Omni Fusion is Thermo Fisher Scientific’s AccuLink. AccuLink is an automated calibration tool and statistical analysis software package that allows the CB Omni Fusion to be continually aligned with a laboratory X-Ray Fluorescence instrument.

Specifications

DescriptionCB Omni Fusion Online Elemental Analyzer

Unit SizeEach

Frequently asked questions (FAQs)

Copper ore sorting seems to be gaining ground as a foundation for better efficiency. Do you have any advice on issues to consider?

The benefits of ore sorting against a backdrop falling ore grades are difficult to argue. However, ore sorting projects can be associated with considerable CAPEX. Most of the costs is in material handling with diverting, routing, conveying and transport since once sensed, the ore is "sorted" meaning diverted to a waste stream. However, the return on investment on the capital and operating costs will rely on the ability of an analyzer to differentiate the incoming material. The difference in return from even a marginal difference in performance is make or break in this application.

Although bulk and particle sensing and ore sorting is not a new technology, it has been slowly adopted by the mining industry. As pioneers in the field of neutron activation analysis - Prompt Gamma Neutron Activation Analysis (PGNAA) and Pulsed Fast Thermal Neutral Activation (PFTNA) - we understand its strengths, its limitations, and how best to implement it.

Not all PGNAA/PFTNA technology is equally powerful, and some are not adequate. Source strength, detector quality, and system design all play a role in determining performance and it pays to understand how. For example, measurement uniformity, across the entire incoming ore stream is vital and not feasible with systems with just a single central detector.
In summary, the analyzer you choose for ore sorting is critical so we recommend considering the options carefully and getting advice. And do the calculation. Look at the performance on offer and see what it might mean in terms of the bottom line. You'll find an example of this type of calculation in our eBook (http://assets.thermofisher.com/TFS-Assets/CAD/brochures/copper-ore-processing-ebook.pdf).

Why should PGNAA/PFTNA be used in copper mining?

Neutron activation analysis techniques such as Prompt Gamma Neutron Activation Analysis (PGNAA) or Pulsed Fast Thermal Neutral Activation (PFTNA) are well-suited to bulk ore sorting. Bombarding materials with neutrons cause the elements to emit secondary, prompt gamma rays, creating an identifying 'fingerprint'. PGNAA and PFTNA analyzers penetrate the entire incoming ore stream, ensuring that the whole material stream is analyzed equally and accurately.

Where should an online analyzer in sinter applications be located?

Online analyzers for sinter are situated directly on the conveyor belt and penetrate the entire raw material cross-section, providing minute-by-minute, uniform measurement of the entire material stream, not just a sub-sample. The location chosen for an online elemental analyzer should be after the agglomeration drum, taking into account safe access for installation and maintenance as well as environmental protection for service personnel.

Other critical factors to be considered in placement of sinter feed analysis equipment include:

- Belt width and troughing angle
- Maximum and minimum feed rates
- Belt speed
- Range of belt loading
- Maximum burden height of material
- Location of existing sampling infrastructure
- Iron ore mineralogy
- Intended process control strategy

Read more about products used in the sintering process and iron and steel manufacturing on our Iron Ore Sintering Process in Steel Manufacturing web page (https://www.thermofisher.com/us/en/home/industrial/cement-coal-minerals/iron-ore-sintering-process-steel-manufacturing.html).

How does an online analyzer for sinter work?

Online sinter feed analysis systems utilize prompt gamma neutron activation analysis (PGNAA) and Pulsed Fast Thermal Neutron Activation (PFTNA) to determine the elemental composition of bulk raw materials. Both of these techniques, which are non-contact, non-destructive analytical techniques, are known collectively as neutron activation analysis, and function by bombarding materials with neutrons.

The neutrons interact with elements in the materials, which then emit secondary, prompt high energy gamma rays that travel through the many centimeters of material and can be measured with a large area gamma ray detector without contacting the material. Because prompt gamma rays are measured, the speed of the material passing through the analyzer does not affect the measurement. Similar to X-ray fluorescence (XRF), each element emits a characteristic energy signature as it returns to a stable state.

For more in-depth information, visit the PGNAA and PFTNA Technology page (https://www.thermofisher.com/us/en/home/industrial/cement-coal-minerals/cement-coal-minerals-learning-center/cement-analysis-production-information/pgnaa-pftna-technology.html).

What are the benefits of using an online elemental analyzer to control the sinter feed composition?

An online elemental analyzer (https://www.thermofisher.com/order/catalog/product/CBOMNIFUSION) can help control the sinter feed basicity and provide a more consistent feed to the sinter strand. The benefits of real-time chemical analysis data include:

- More consistent sinter product - improves sinter quality and stabilizes feed to the blast furnace
- Increased sinter strand and blast furnace throughput due to reduced sinter product variability
- Decreased return fines lowers material handling costs
- Reduced load on laboratory, allowing capacity to be used elsewhere without incurring additional costs
- Net reduction in cost per ton of sinter production
- Increased operational flexibility by maintaining feed KPIs closer to operational limits and strategic use of the raw mix materials

View all CB Omni™ Fusion Online Elemental Analyzer FAQs