INTRODUCTION

The first proposal for the use of ultrasound for flow measurement, according to Thompson (1978), seems to have been in a German patent of 1928. It was not until after 1945 that the idea became more widely proposed. But not until the development of piezoelectric transducers in the past 40 years or so have ultrasonic applications become really attractive. Fischbacker (1959) provided an early review of ultrasonic flowmeters in which, essentially, the transit-time, sing-around, and beam deflection methods were mentioned. He also referred to phase-difference measurement, means of obtaining sound speed from time measurement and impedance, and how to obtain density. He saw the advantages of off-axis paths.

Sanderson and Hemp's (1981) review is still a useful source of information on the subject. The ultrasonic flowmeter's attraction as a flow measurement device is its linearity, lack of obstruction to flow, and, in contrast to the magnetic flowmeter, its ability to measure the flow of gases.

In this chapter, we shall consider three main types of ultrasonic flowmeter, and it is important to understand the strengths and weaknesses of each and that they are very different in performance and application.

The transit-time flowmeter, or time-of-flight flowmeter, is the most accurate of the family and is available as a spool piece meter for liquids and gases or as a clamp-on design for liquids only. It can also be retrofitted into a pipe. Measurement uncertainty will be from a fraction of a percent to about 5%.