Nelson complexity index

From Wikipedia, the free encyclopedia

The Nelson complexity index, developed by Wilbur Nelson in 1960, is a measure of the secondary conversion capacity of a petroleum refinery relative to the primary distillation capacity.

The Nelson Complexity Index assigns a complexity factor to each major piece of refinery equipment based on its complexity and cost in comparison to crude distillation, which is assigned a complexity factor of 1.0. The complexity of each piece of refinery equipment is then calculated by multiplying its complexity factor by its throughput ratio as a percentage of crude distillation capacity. Adding up the complexity values assigned to each piece of equipment, including crude distillation, determines a refinery’s complexity on the Nelson Complexity Index.

The Nelson Complexity Index indicates not only the investment intensity or cost index of the refinery but also its potential value addition. Thus, the higher the index number, the greater the cost of the refinery and the higher the value of its products.

In the second edition of the book Petroleum Refinery Process Economics (2000), author Robert Maples notes that US refineries rank highest in complexity index, averaging 9.5, compared with Europe’s at 6.5.

The Oil and Gas Journal calculates refinery complexity as measured by by the Nelson Complexity Index annually.

External Links: [1]