Alternative fuels for cement manufacturing: Quick and flexible semi-quantitative analysis with Omnian

This application note underscores Omnian's versatility and its synergy with the Epsilon 4 EDXRF spectrometer for analyzing diverse alternative fuels with a single method. It demonstrates the precision of Omnian in measuring loose powders and its potential to ensure the safe and environmentally friendly use of alternative fuels in cement manufacturing

Introduction

To reduce energy costs, CO2 emissions, and dependence on fossil fuels, cement companies are increasingly using alternative fuels. These types of fuels originate from different sources, such as household and industrial waste (e.g., plastics), used tires, biomass, waste oils, sewage sludge, and even animal remains.

Prior to combustion, the elemental composition of the fuel has to be screened. This will ensure that the concentrations of the various elements (such as sulfur, chlorine, and heavy metals) are below the safety thresholds.

X-ray fluorescence (XRF) is a proven analytical technique that has been successfully used on a wide range of samples. The European norm EN 15309:2007 provides guidelines for the analysis of homogeneous waste and soil-like materials using XRF. 

[App Note - Omnian_Alternative Fuels.png] App Note - Omnian_Alternative Fuels.png

Figure 1. Examples of alternative fuel samples: (1) industrial plastic waste, (2) sewage sludge, (3) household waste, (4) wood chips, (5) rubber granules, (6) textiles from tires.

Omnian is Malvern Panalytical’s semi-quantitative analysis solution, designed specifically for qualitative screening and concentrations evaluation without a dedicated calibration.

Omnian has been successfully used on high-end WDXRF spectrometers. It is also available for the Epsilon 4 EDXRF benchtop systems. This powerful combination brings together the strengths of Omnian with the ease of use of Epsilon 4.

The Omnian analysis program performs an automatic qualitative analysis, followed by a standardless determination of the composition using an algorithm with fundamental parameters calculations. Omnian is designed to provide fast, reliable quantification in the default ‘black box’ mode. However, the data collected is comprehensive and can be reviewed in more detail if required. 

This application note shows the performance of Omnian on Epsilon 4 for the analysis of various reference materials, chosen for their representational value of real alternative fuels. All samples were measured using the default Omnian calibration and settings.

The samples are measured as loose powders, which are placed directly into a sample cup with a polymer bottom foil. Similar sample cups are used for liquids. The user only needs to check the amount of sample and place the cup inside the instrument.

Biomass

The standard NCS DC73349, which is a mixture of bush branches and leaves, was selected as a typical biomass sample. Cellulose (C6H10O5) was chosen as the balance compound. Table 1 compares the measured concentrations with the certified values, demonstrating a good correlation between the two. Even for light elements in such challenging materials, this standardless analysis provides a good indication of the concentration ranges.

 

NCS DC73349UnitCertified conc.Measured average ± std. deviation
Nawt%1.961.37 ± 0.04
Mgwt%0.480.37 ± 0.006
Alwt%0.20.12 ± 0.002
Siwt%0.60.37 ± 0.003
Pwt%1000723 ± 7
Swt%0.730.64 ± 0.005
Clwt%1.921.96 ± 0.017
Kwt%0.920.95 ± 0.008
Cawt%1.681.61 ± 0.014
Tippm9592 ± 1
Vppm2.41.0 ± 0.6
Crppm2.62.0 ± 0.2
Mnppm6160 ± 0.7
Feppm1070981 ± 8
Nippm1.72.0 ± 0.1
Cuppm6.66 ± 0.1
Znppm5555 ± 0.5
Brppm34 ± 0.1
Rbppm4.54 ± 0.1
Srppm246249 ± 2
Brppm34 ± 0.1
Pbppm4748 ± 0.5
Table 1. Omnian average results and standard deviations for ten separate measurements on individual cups containing loose powder from NCS DC73349. Certified concentrations are also shown for comparison.

Animal remains

As an example of animal remains, a bovine liver standard reference material (NIST NBS 1577a) was selected (see data in Table 2). As balance, we chose to use C18H362N2. The loose powder analysis in the fourth column already gives a good indication of the elemental concentrations of the sample and is already in agreement with the certificate.

To demonstrate the flexibility of Omnian and the influence of sample preparation, the fifth column shows the results when the same standard is prepared as a pressed pellet. The data show that choosing pressed pellets will improve accuracy, particularly for low Z elements, such as Na, Mg and P. 

NBS 1577aUnitCertified conc.Measured average ± std. deviation Loose powderMeasured average ± std. deviation Pressed pellet
Nawt%0.2430.13 ± 0.010.1 ± 0.01
Mgwt%0.060.02 +/- 0.0020.04 ± 0.002
Pwt%1.110.73 ± 0.011.12 ± 0.01
Swt%0.780.5 ± 0.0050.9 ± 0.01
Clwt%0.280.20 ± 0.0020.43 ± 0.004
Kwt%0.9960.74 ± 0.0081.06 ± 0.008
Cuppm158121 ± 2166 ± 2
Feppm194146 ± 2211 ± 2
Mnppm9.96 ± 0.29 ± 0.2
Moppm3.54 ± 12 ± 0.1
Rbppm12.511+ ± 0.110 ± 0.2
Brppm98 ± 0.19 ± 0.2
Znppm12397 ± 1130 ± 2

Table 2. Omnian results compared to certified concentrations for bovine liver standard.

Fuels, oils, and petrochemicals

A lubricating oil standard (Lube Oil 16) manufactured by VHG Labs Inc. (LGC Standards, USA) was measured as an example of Omnian’s performance when testing fuel, oil, or liquid petrochemicals. For the analysis, five milliliters were poured into a liquid cup. CH2 was automatically calculated as a balance compound by the Omnian software.

Lubricating oilUnitCertified conc.Measured conc.
Mgppm700620
Sippm250212
S%0.9870.925
Ca%0.4000.413
Znppm120138
Bappm261314

Table 3. Comparison between Omnian results and the certified concentrations for an oil standard from VHG Labs Inc., USA.

Results in Table 3 demonstrate good agreement between certified and measured values for minor to trace concentrations in a liquid sample.

Sewage sludge

As an example of sewage sludge, Slovak reference material 188-WT-H sewage sludge from municipal water treatment was analyzed. The loose powder results (Table 4) give a good indication of the concentration of the elements in the sample. CO2 was taken as the balance compound.

Sewage sludgeUnitCertified conc.Measured average ± std. deviation Loose powder
Mgwt%0.570.40 ± 0.003
Alwt%2.511.98 ± 0.005
Siwt%Not certified5.17 ± 0.015
Pwt%1.441.16 ± 0.004
Swt%1.341.43 ± 0.004
Clppm61706620 ± 20
Kwt%0.5820.540 ± 0.002
Cawt%4.834.19 ± 0.016
Vppm33.719 ± 1
Crppm13401240 ± 6
Mnppm36603340 ± 10
Fewt%1.71.6 ± 0.006
Nippm11401150 ± 5
Cuppm31402830 ± 10
Znppm63605850 ± 30
Asppm14695 ± 1
Bappm772766 ± 6
Moppm78.475 ± 0.5
Cdppm54.761 ± 0.7
Hgppm31.327 ± 0.3
Pbppm22902190 ± 10

Table 4. Certified values (right column) compared with the Omnian results measured on municipal treatment of sewage sludge: 188-WT-H.

Conclusion

This application note demonstrates the ability and flexibility of Omnian, in combination with an Epsilon 4 EDXRF spectrometer, to analyze different types of alternative fuels with a single method.

This study demonstrates Omnian’s capability on the Epsilon 4 to measure samples as loose powders. The data obtained show good agreement with expected concentrations. The analysis error is less than expected from sampling heterogeneous alternative fuels.

Omnian provides the necessary insight to use the alternative fuels safely and ensure they will not affect the process (quality and safety) or the environment. The user can further improve accuracy, especially for lighter elements, by presenting samples as denser pressed pellets.

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