A method and apparatus for cleaning internal channels in an article are presented, with the method comprising providing an article that comprises at least one internal channel. The at least one internal channel comprises at least one inlet port and at least one outlet port. The method further comprises providing a cleaning apparatus, and this cleaning apparatus comprises a cleaning fluid, a reservoir containing the cleaning fluid, a transmitter of vibrational energy projecting into the reservoir the transmitter comprising a transmitter tip and a source of vibrational energy coupled to the transmitter, with the vibrational energy comprising a frequency and a wavelength. The reservoir of the provided apparatus comprises an interface adapted to accommodate attachment of the reservoir to the article, and this interface comprises an orifice to allow fluid communication between the reservoir and the at least one internal channel of the article. The method further comprises attaching the article to the apparatus at the interface.

Apparatus for cleaning well bore tubulars comprises an ultrasound source suspended on a work string adapted to be run in the well, wherein the ultrasound source provides sufficient ultrasonic energy to remove scale or other undesirable debris or particles from, the well bore tubular.

A portable, modular blood analyzer capable of analyzing multiple blood values in an inexpensive, relatively simple, easy-to-use and easy-to-maintain instrument. The invention comprises a three-part system including an analyzer body, calibrant cartridge, and sensor cartridge. A modular calibrant cartridge is insertable into the analyzer body, and contains all necessary calibrant fluids as well as a waste container. A modular sensor cartridge having integral pump tubing plugs into the analyzer body for easy removal and replacement of the sensor elements. The analyzer body internally has modular units including an electronics module, a display module, and a fluidics/printer module. The analyzer uses a single pump head to aspirate blood only to a sensor array within the sensor cartridge. This action is accomplished by aspirating blood by rotating an peristaltic pump in one direction during a first portion of an analysis cycle, and by reversing the pump and flushing the blood from the sensor cartridge with fluid pumped from the opposite direction during a second portion of an analysis cycle. Accordingly, blood contacts only a small portion of the analyzer mechanism, most of which is disposable. Because all valves are "downstream" from the single pump, no blood products pass through any valves. The analyzer fluid handling section is easily cleaned by removal of the sensor cartridge, yielding a single tube pathway. A short path length for blood travel permits using blood samples as small as 200 .mu.l. The analyzer is light-weight and modular in design and is fully automatic.

A method for cleaning a tube-in-shell heat exchanger, comprising removably inserting an ultrasonic transducer within the shell of the heat exchanger; providing a liquid medium within the shell of the heat exchanger; exciting the ultrasonic transducer to produce cavitational acoustic waves within the liquid medium; and repositioning the ultrasonic transducer with respect to a tube within the heat exchanger. The system preferably includes a control for controlling transducer excitation and transducer position. Closed loop control may be effected with fluid medium contamination sensor(s) and/or position sensor(s).