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Digestion of Mixed Oils and Polymers
in a Single Batch
June 20, 2pm
 

Abstract

Heavy oils, such as bunker oil and polymers like PET, present difficulties for microwave sample preparation for metals analysis. It is the viscosity of the bunker oil, and the density of the thermoplastics such as PET, that make these materials a challenge. Previously, only very small sample sizes of 100 mg or less could be digested successfully, which made it difficult for lower detection limits. In addition, they had to be run individually to provide a complete digestion.

 

CEM has recently pioneered a major advancement in vessel technology. Using patented dual-seal technology, the iPrepTM vessel can run at higher temperatures and pressures, which are required for the digestion of extremely difficult samples. The MARSTM 6 system, with precise iWave temperature control of every vessel, and iPrep vessels will be used to prepare a variety of heavy fuel oils and dense polymer materials in a single batch.

 

Introduction

 

Bunker oil is generally considered as a fuel oil number 6. It is literally the bottom of the barrel of refined crude, which makes it the cheapest fuel available, and is used primarily by cruise ships. Being the lowest fraction, it is also the highest in heavy metals such as Fe, Mg and Ni, among others.

 

PET is a member of the polyester family. The presence of a large aromatic ring and repeating units give it significant strength and stability. It has numerous applications from plastic soda bottles and food containers, to carpet and furniture. The use of heavy metals, particularly Sb in the synthesis of PET, require metals testing, as it relates to public health.

 

Instrumentation

A total of eight samples were digested in a single batch in a MARSTM 6 microwave system using iPrepTM vessels and iWave contactless in-situ temperature measurement. iWave is a novel technology advancement that utilizes Light Emitting Technology™ to measure the temperature of the actual sample solution inside the vessel, and does not require an internal probe.

 

The patented dual-seal design (Figure 1) provides higher temperatures and fine control of the vent and reseal process necessary for these sample types. iPrep is an easyto- use three piece design, which is assembled with a hand torque device at only 21 inch pounds.

 

 

Hand Torque Tool

There’s no need to use a heavy wrench to assemble iPrep vessels. Our custom fit hand torque tool makes it easy to properly assemble the iPrep vessels, while reducing hand fatigue. One click is all it takes to apply the correct amount of torque, every time; making it impossible to over-tighten or under-tighten the vessels.


Watch hand tourque tool video

Dual-Seal Advantage

The high temperature and pressure conditions afforded by this seal and vessel design provide for the complete digestion of difficult organics, such as PET, bunker oil, organic dyes, toner, thermoplastics, and many other difficult to digest materials.

2X Capacity

In addition, its large 110 mL volume allows for larger sample sizes, as compared to other high performance vessels.

Elemental Integrity

The dual-seal function provides for unmatched control of the byproducts from digestions such as CO2 and NOx fumes. These are precisely vented outside the vessel, while maintaining the full integrity of all elements, even volatile analytes such as As, Se, and Hg.

iWave

iWave utilizes the emission of light from the sample (solution) to rapidly and accurately measure temperature. It reads the temperature of the solution itself, instead of reading the temperature of the vessel.

 

Procedure and Method

 

Approximately 0.25 grams of the four sample types were weighed into an iPrepTM vessel liner and 10 mL of concentrated nitric acid was added to each. The vessels were capped and assembled and then placed in the MARSTM 6 for digestion. The One Touch Method for Bunker Oil was used. The One Touch Technology® automatically counts the number of vessels and recognizes the vessel type. It then optimizes the conditions for the acid digestion.

 

Samples


The samples included:
 
• Bunker Oil (Fuel Oil Number 6)
• PET Pellet
• HDPE Pellet
• Residual Fuel Oil (These were run together in a single digestion run)
 

Acid used: 10 mL Concentrated Nitric

 

Results and Discussion

 

The MARS 6 with iPrep vessels and iWave simultaneously processed the four different oil and plastic samples. Each sample was run in duplicate for a total of eight samples. As illustrated in Figure 2, the system automatically adjusts the power instantly to compensate for the varied sample types. iWave also ensures that all samples heat evenly as shown in the bar graph of the individual samples in Figure 3. All samples were completey digested producing clear, colorless solutions. Figure 4 shows an example of the bunker oil and PET before and after digestion.

 

Figure 2:
Precise power application provides
superior temperature control

mixed_oils_polymers_figure_2

Figure 3:
Even heating of individual samples
using iWave temperature control

mixed_oils_polymers_figure_3

 

Figure 4:
Bunker Oil and PET Before and After Digestion

Bunker Oil

Max Size: 0.25 grams
Result: Clear

Before


mixed_oils_polymers_bunker_oil_before

After


mixed_oils_polymers_bunker_oil_after

 

PET Pellet

Max Size: 0.25 grams
Result: Clear

Before


mixed_oils_polymers_pet_before

After


mixed_oils_polymers_pet_after

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