Oct 2, 2017 · This article walks through the suggested nine step procedure for selecting and designing an electric submersible pump. This nine step procedure for ESP design is a basic hand-design of simple water and light crude oil.

Jun 20, 2019 · There are four basic design types of ESP's and they deponds on production environments as fluid properties and well conditions change.

There are two methods of Calculating TDH for a pump Bottoms Up – Traditional Method Using Fluid Level

May 8, 2017 · Centrilift has established a nine-step procedure to design the appropriate electrical submersible pump in order to have an efficient and cost-effective performance.

Learn ESP system selection & performance calculations with this guide. Covers design, gas calculations, and variable-speed operations.

Impact of gas on ESP operations, his work explains how operators can use real-time data to distinguish between head degradation, slugging, and “gas locking” and thereby improve designs and uptime.

This lesson reviews the ESP design parameters, along with typical ranges for these variables. It also familiarizes you with cost information for various ESP designs so that you can be aware of cost when reviewing design plans and making recommendations.

1. Collect data (well, production, fluid, electrical). 7. Check pump shaft loading and pump housing pressure. 8. Calculate motor horsepower requirements and select a 9. Calculate the protector thrust bearing load and select a 10. Determine the correct cable size and select a suitable 11. Calculate the surface voltage and KVA requirements In …

Among the available artificial lift methods, the electrical submersible pump (ESP) system is very effective in wells with low bottom hole pressure, low gas to oil ratio, low bubble point pressure, high water cut, and deviated wells [1]. A Russian engineer named Armais Arutunoff in 1911 invented an electric motor that can be worked on the water.

Data provided in this paper will demonstrate the effects of thoughtful application of three (3) ESP design technologies - discharge electrode configuration, power supply type, and collecting plate spacing - into the design of two utility ESP’s.