by Tori Yokoyama

Author's Note:

This article discusses factory performance testing of vertical pumps. For guidelines on specific test procedures, calculations and specific requirements, refer to ANSI/HI - 2.6 Standard. A performance test is only one type of test. Tests not discussed in this article include hydrostatic tests, NPSH required tests and mechanical/vibration tests.

A critical phase in the design and construction of a pumping station is a witnessed pump performance test at the manufacturer's facility. The purpose of a pump performance test is to develop the actual pump curve of the assembled pump. Since no two pumps will perform exactly the same, a factory pump performance test will determine the actual flow, head and efficiency of a pump along its operating range. The standard that governs a factory performance test for vertical pumps is the American National Standard for Vertical Pump Tests (ANSI/HI - 2.6). The standard describes certain aspects of vertical pump tests, including types of tests, acceptable methods of measurement, test procedure and acceptable performance tolerances.

The Test Setup

Each manufacturer may use a different setup for testing vertical pumps. Some manufacturers use a wet pit, while some may use a pump can. Different types of meters measure flow, and different methods measure head. Power can be measured as input power to the motor, or input power to the pump using torque and speed. Regardless of the pump test setup, the tested pump should include all major components of the installed pump. These components include the bowl assembly, column pipe assembly, discharge head and motor.

Some concessions can be made to accommodate testing. For example, if the column pipe assembly of the finished pump will be too long to test in the factory, it is acceptable to eliminate sections of the column pipe for the performance test, as long as the performance of the complete bowl assembly is not affected. All components of a pump factor into the overall performance, so the most accurate performance test will include all components of the finished pump.

Performing the test in the factory is of utmost importance for several reasons. First, when the test is performed in the factory, it is typically in close proximity to where the pump was assembled. If the test reveals that adjustments need to be made, it is possible to hoist the pump off the test bench and make the necessary adjustments. For example, it can be determined in the factory if the performance curve is not within the specified tolerances. If this were found after the pump was installed, fixing the problem could be extremely difficult and costly.

Second, the factory presents a controlled atmosphere. Water levels, pipe lengths, pipe dimensions and suction to the pump can all be controlled. These are all possible constraints in the field, but non-issues in a factory.

Third, the manufacturer should have extensive experience in testing pumps at its facility. The manufacturer will have all the measuring instruments calibrated and know all the factors to be considered in the test. In general, a test performed in the factory has significant advantages over testing once the pump has been installed.

The Role of the Witness

The pump test witness must have a thorough understanding of all aspects of the test, the project specifications, the ANSI/HI - 2.6 standard, the tested pump and project details.

The project specifications should state the pump's required performance, as well as other requirements of the performance test. The witness must verify that all requirements of the specification are followed. The standard has several provisions for how the test should be set up, what types of instruments should be used, where the instruments should be located, how the test should be run and acceptance criteria for the results. It is important for the witness to understand how the pump will be used in operation. The witness should use engineering judgment when evaluating results.

The witness must verify the results of the test. Results of the pump performance test include the flow, head and efficiency along the tested pump's operating range. The total dynamic head verification starts with a pressure gauge reading but also requires additional calculations. Efficiency involves comparing power delivered to the pump (pump input) with power delivered to the water (pump output).

The Performance Test

Measuring Flow

A flowmeter, including venturi, electromagnetic or propeller, measures flow. The flowmeter must be calibrated prior to the pump test, and current calibration reports should be provided to the witness prior to or at the time of the pump test.

Throttling a control valve on the pump's discharge side creates the various points of the pump curve, and the flow is recorded from the flowmeter.  

Determining Total Dynamic Head of the Pump

In a pump station design, the design consultant will determine the required design point of a pump through the development of a system curve. The pump supplier will then use the design point along with other factors to choose the optimum pump for the application. The pump test must verify the total dynamic head of the pump.