Abstract: A non-destructive on-site method of inspection, and testing of the insulating performance and reconditioning of a concentric insulating tubular conduit member is disclosed. The insulating tubular conduit members comprise concentric walled members with an intermediate annular insulating cavity defined therebetween. This non-destructive method of testing and inspection is based on a determination of the presence of an unacceptable level of moisture in the annular insulating cavity. Visual, auditory, electrical, and radioactive indicating means can be employed in accordance with the principles of this invention.

Abstract: A portable instrument for use in the field in detecting and identifying a hazardous component in air or other gas including an array of small sensors which upon exposure to the gas from a pattern of electrical responses, a source of standard response patterns characteristic of various components, and microprocessor means for comparing the sensor-formed response pattern with one or more standard patterns to thereby identify the component on a display. The number of responses may be increased beyond the number of sensors by changing the operating voltage, temperature or other condition associated with one or more sensors to provide a plurality of responses from each of one or more of the sensors. In one embodiment, the instrument is capable of identifying anyone of over 50-100 hazardous components.

Abstract: Method and apparatus which can provide continuous monitoring of the partial pressure of one or more gases in an atmosphere or feed stream, over an indefinite period of time and at a minimal cost. The method and apparatus of the present invention operates by monitoring the change in frequency of a piezoelectric element which has been coated with a film formed from manganese tertiary phosphine polymer complex. As the polymer absorbs or releases gas the frequency of the piezoelectric device will be altered.

Abstract: Disclosed is a process and device for facilitating the differentiation of particles in a medium. The particles are exposed to a rotating electrical field of variable rotational frequency. By providing a means for adjusting the frequency of the rotating fields, the particles can be caused to rotate in different directions thereby facilitating differentiation of particles belonging to different groups of particles. An apparatus for implementing this process includes at least three electrodes which are arranged so as to form a space therebetween. A device for producing a rotating field of variable rotational frequency is connected to the electrodes.

Abstract: Disclosed is a process and device for determining which cells of a suspension containing cells of the same species and genus are secreting cellular substances. Such determinations are made by exposing the cells to rotating electrical field forces of variable rotational speed and differentiating the cells secreting the cellular substances from the other cells by means of their rotational behavior which differs from that of the other cells.

Abstract: A method and apparatus to automatically compensate for temperature variation in a vapor detection system. In one embodiment, two identical organic semiconductor film sensors in close thermal contact with each other are used in the feedback circuit of an inverting amplifier supplied by constant voltage. One of the sensors is isolated from vapor exposure to act as a reference for the other sensor which is used for vapor sampling. The output of the inverting amplifier provides an indication of the presence and relative concentration of vapor exposure. Variation in sample sensor resistance due to a change in temperature is accompanied by the same corresponding change in the reference sensor, which stabilizes the ratio of the feedback circuit resistances and therefore the gain of the inverting amplifier to exactly compensate for the temperature induced resistance variations automatically.

Abstract: Polymer-catalyst transducers are used for detecting one or more constituents in a sample. Changes in conductivity of the polymer-catalyst transducers as a result of electron density changes are measured to provide an indication of a particular constituent present in the sample. Such conductivity changes can be measured using a conductivity meter. The polymer-catalyst transducers are particularly useful for the determination of glucose in whole blood.

Abstract: A pyroelectric substrate is provided with a heater and at least one set of electrodes for sensing charge redistributions due to changes in the substrate temperature. In a preferred embodiment, there are two interdigitated electrodes, one coated with an absorber/desorber material. The heater pulsatingly raises the temperature of the substrate past the desorption temperature of a fluid of interest. If the fluid was exposed to the absorber/desorber material prior to heating, a portion of the fluid will have been absorbed. When the substrate reaches the desorption temperature, additional heat pulses will not increase the substrate temperature significantly until the fluid has desorbed. Thus, heat used in changing state does not raise the substrate temperature and, lacking a temperature change, reduces the charge redistribution sensed by the electrode coated with the material.

Abstract: An apparatus for and method of determining the content of an anesthetic gas in a selected location is disclosed which comprises heating a sensor layer containing phthalocyanine, measuring the resistance of the sensor while it is heated, and selectively determining the content of the anesthetic gas either by measuring the variation of the electrical resistance or the rate of the variation of the electrical resistance. A device for carrying out the method comprises a carrier with a layer of copper phthalocyanine thereon is provided with electrical terminals for connection to a electrical current source. The sensor carried on a heatable carrier and an electrically heatable catalyst is arranged in the free space directly adjacent the sensor for dissociating the molecules of the anesthetic gas to be detected. The temperature of the catalyst is maintained higher than the temperature of the sensor layer and advantageously comprises a wire of metal from the series of the platinum metals.

Abstract: A method, sensor and semiconductor device for determining the concentration of an analyte in a medium. The device features an element constructed of semiconductive organic polymer associated with a binding substance having specific affinity for the analyte.

Abstract: A method of measuring breath alcohol includes blowing breath in a stream through an inlet line, hence through an orifice, past a thermistor exposed to the stream, changing the temperature of the thermistor to a predetermined temperature in response to a predetermined volume of breath. The thermistor provides an output signal to trigger the measurement of alcohol in the breath by an alcohol detecting device. The method and apparatus permit the purging of the system to provide a base line reference for the alcohol detection device, then testing to ensure that the breath inlet line is clear of contamination, then running an alcohol standard sample through the alcohol detecting device, again purging the system, again testing to ensure that the breath inlet line is clear of contamination, recording the result as a blank test, and thereafter blowing breath through the inlet line to obtain a demonstratably accurate measurement of breath alcohol.

Abstract: A technique for determining and distinguishing between specific species of chlorine in a supply of water is disclosed herein along with certain applicable apparatus. In carrying out this technique, one or more water samples are obtained from a larger supply and made to display a pH within a specific range. In a preferred embodiment, a sample is provided for each of the different species of chlorine to be determined. A predetermined amount of hydrogen peroxide is added to each of these samples. If hypochlorous acid and/or hypochlorite (one of the species to be determined) is present in any of the samples, the hydrogen peroxide by itself will react therewith for producing oxygen. If however either monochloramine or dichloramine (other chlorine species) is present, it is necessary to combine the hydrogen peroxide with a certain minimum amount of iodine, preferably in the form of potassium iodide, to produce an oxygen evolving reaction.

Abstract: An apparatus which enables cell membrane dielectric breakdown to be determined. This determination is essential for the rapid inexpensive, reliable, in vitro quantification of lymphocyte tumor-cell cytotoxicity, lymphocyte membrane fluidity and the analysis of abnormal or tumor cells. The apparatus incorporates therein a cell dispenser used in conjunction with a DC electric field exposure tube. Electronic circuitry and its associated components process, acquire and store cell voltage signals as the cells are drawn through the electric field exposure tube. The procedure utilized with the apparatus of this invention involves quantifying the breakdown voltage required to electrically collapse the cell membrane. The electrical collapse is termed a dielectric breakdown and is characterized by a reversible drop in the cell's resistivity.

Abstract: A compact and portable biosensor which can detect the presense of an environmental stimulus is produced by extracting cell membrane proteins which are specific for the stimulus, purifying the proteins, and reincorporating the proteins into synthetic membranes. Electrodes are used to measure the voltage or current changes across the membrane when the proteins in the synthetic membranes react to the specific stimulus. The magnitude of the changes indicate the concentration of the stimulus in the environment.