How to Perform an Oil Analysis for Gold

Analysis for oil

Oil analysis is a laboratory procedure performed to determine the quality of oil by analyzing the lubricant’s properties, suspended contaminants, and wear debris. Oil analysis is usually performed as part of routine predictive maintenance to determine the lubricant’s condition. Results provide valuable information about machine and lubricant condition. This method is highly effective for determining lubricant condition and the health of machine parts. Here are some tips to perform an oil analysis:

The first step in an analysis is to determine the total acid number (TAN) of the oil. The TAN number is important to determine the acidity of the oil. A high TAN number is considered the best oil, and one should perform frequent analysis at regular intervals. A low TBN number can be a result of improper oil application, using fuel containing high sulfur levels, or waiting too long between oil changes. To ensure that the oil’s TBN is not low, it should be changed often.

A particle count is a different type of oil analysis. This method is often used to determine the size and number of particles in oil. The result is reported as a number with a forward slash, and is based on the ISO 4406:99 standard. For example, a PHC size of four, six, or fourteen microns correlates to a PHC count of six to fourteen microns. This method costs a lot, but it is highly effective in many cases.

The routine oil analysis tests vary depending on the originating component and environmental conditions. They may include tests such as viscosity, elemental analysis, moisture levels, particle counts, FTIR spectroscopy, acid number, and base number. Some laboratories use the analytical ferrography method, which uses equipment to measure the presence of ferrous compounds. This method is also known as ferrous density. It is important to determine if the test results are accurate.

GC-MS is another common method. This method can help differentiate between pyrogenic and biogenic hydrocarbons. This method relies on target PHCs for identifying and determining the presence and amount of compounds in a sample. This method is used in the analysis of crude oil and refined products. However, the analysis of oil samples from the environment is more complex, as environmental weathering and other background substances can affect oil characteristics.

Nodal analysis is another type of oil analysis. It combines an Echometer and FTIR spectroscopy and provides more accurate results than a traditional oil-sand sample. It helps oil companies predict the behavior of a well and take the appropriate actions in response. The analysis can be performed on an ongoing basis or periodically, depending on the well’s condition. It is a very useful tool for oil and gas companies.

Oil exploration companies have long used oil analysis to reduce maintenance costs and improve uptime. On-site oil analysis provides clear reporting and recommendations for repairs and maintenance. Dan Walsh, an OPIS expert, explains how on-site oil analysis can benefit exploration companies. The rigs are similar whether they are land-based or sea-based, and they both feature drill platforms. Analysis of these platforms is vital to the overall operation of an oil rig.