Analysis For Oil Life
Analysis for oil is a process of finding out how much oil has been changed into gasoline. The analysis for gold includes determining the amount of gold present in petroleum samples taken from the site of the oil-change interval. The process is also known as the gold survey. Gold is found in several locations including Texas oil fields, Nigeria and Canada.
Analysis for oil is carried out in several different ways. First, the sample is taken for inspection under high magnification by means of a scanning electron microscope (SEM). In case of oil samples that do not contain gold, a procedure called electromagnetic spectroscopy (EM) is used instead. During the operation of analysis for oil, the sample is passed through an electric field which alters its electrical charge. This alteration is detected by the instrument’s receiver.
Oil analysis for gold is important because it can tell engine components how many electrons have been switched from the conductive metal to the non-conductive one. The change results from a number of factors including oxidation rate, porosity, wear characteristics, film formation and thermal contraction. The analysis for gold can also reveal the presence of iron deposits and sulphates on oil pipes and engines. The presence of metallic flakes in the oil sample can be detected using methods like gas chromatography, mass spectrometry and turbidity measurement. The analysis for oil properties can be performed at a variety of conditions depending on the sample and its suitability for analysis.
Analysis for oil can save time and money. Analysis for oil reduces operational costs because fewer man hours are needed to perform the process compared with standard sampling methods. Analysis for oil reduces the emission of sulfur compounds by almost two thirds, making the emission rate of the traditional method of oil analysis less than half.
Analysis for oil using diamond infrared (CIR) photometry has a very high accuracy level which makes it ideal for applications where there is a high degree of porosity or variability in the oil discharge. It has the highest precision percentage which ensures the lowest percent of false results and the most reliable results. It enables the detection of tiny air bubbles and oil droplets even under dry conditions. Extended drain intervals can be achieved with proper analysis for oil even at elevated temperatures.
The analysis for oil program performed on the basis of hydrocarbon mass and oil discharge characteristics allows the calculation of the maximum and minimum pressure levels required for a specific oil-drain interval. The analysis for oil programme removes the need for up-front measurements to determine the discharge volume of the oil, thereby saving time and money. Analysis for oil is usually performed on pre-production crude stocks before any production. Analysis for oil can also be used to determine the quantity and quality of water found in reservoir beds.
A trend analysis for oil properties utilises matrices to identify trending points within the reservoir that are known to be associated with particular oil properties. The main advantage of an analysis for trend data is that it can help to prepare budget estimates. Trend analysis for oil properties can be performed on wells that have not been operated for many years and on historical data only.
Analysis for oil life requires a detailed study of the reservoir and its oil content to determine if the metal content is increasing or decreasing. Trend analysis is performed by monitoring the metal content of the well over a long period of time. A non-conventional well may have no metal or contain too little metal to be suitable for an analysis for oil life. These types of wells will be suitable for an integrated metal life assessment (IMA). A non-conventional reservoir is usually more difficult to monitor than conventional wells, which can sometimes involve complicated pump operations.