Abstract: The need to filter gas emanating from a containment vessel is reduced or eliminated by maintaining, within the vessel, a gradient that concentrates most of the gaseous contaminants away from the vessel exits. This is achieved by reducing the density of gas drawn from the region near its source and discharging the reduced-density gas to another region of the vessel. Owing to its reduced density, the discharged gas already has a lower contaminant concentration than the source gas. The concentration decreases further as convection draws the discharged gas back to its source. So long as the gas flows within the containment vessel are non-turbulent, the concentration gradient remains substantially static, and the vents remain exposed only to low concentrations of contaminants. The gas density may be reduced by heating and humidification, catalytic reaction, or reaction among constituents of the gas.

Abstract: Degassing is accomplished by driving a gas-containing solution to a subatmospheric pressure approximately equal to the solution vapor pressure, and maintaining the subatmospheric pressure notwithstanding evolution of gas from the solution. This may be accomplished using a vacuum tower arrangment whereby a column of the gas-containing liquid is drawn to the maximum physically attainable height. So long as the vacuum is coupled to the liquid column above this height (generally on the order of 34 feet, depending on the ambient temperature and the composition of the liquid), the liquid will not be drawn into the vacuum, which creates a non-equilibrium region of extremely low pressure above the liquid that liberates dissolved gases. Moreover, liquid introduced into the low-pressure region above the column will fall onto the column without entering the vacuum system.

Abstract: Recycling apparatus for use in a closed-loop waste-treatment system includes components for removal of inert materials. Typically, the system includes a treatment vessel used in conjunction with a clarifier in an internal recycle configuration; clear water from the top of the clarifier is conducted away from the system as treated effluent, while a portion of the biomass settling at the bottom of the clarifier is returned to the head of the treatment vessel through a hydrocyclone and screen arrangement to remove inert content, thereby substantially increasing the efficiency of biological waste-digestion processes.

Abstract: Recycling apparatus for use in a closed-loop waste-treatment system includes components for removal of inert materials. Typically, the system includes a treatment vessel used in conjunction with a clarifier in an internal recycle configuration; clear water from the top of the clarifier is conducted away from the system as treated effluent, while a portion of the biomass settling at the bottom of the clarifier is returned to the head of the treatment vessel through a hydrocyclone and screen arrangement to remove inert content, thereby substantially increasing the efficiency of biological waste-digestion processes.

Abstract: Methods and apparatus for treating waste streams utilize controlled introduction of microscopic gaseous bubbles to create, in a single vessel, as many as three separate biological environments in discrete, stratified zones. In preferred embodiments, bubbles of air are introduced at the bottom of the vessel, creating an aerobic zone in this vicinity. Depletion of oxygen by microorganisms resident in this layer creates an anoxic zone that drifts upward, establishing itself above the aerobic layer. The two layers remain segregated due to the intolerance of aerobic microorganisms for the overlying anoxic environment, the sharpness of the interface depending on the degree of intolerance.

Abstract: Fluorinated terpenes useful in a wide variety of general cleaning and degreasing applications are disclosed. These compounds have high solvencies but reduced flash points, and include derivatives of paracymene and myrcene, both of which, while relatively unreactive, are nonetheless miscible with a wide variety of hydrocarbon soils. The compounds exhibit flash points of 25.degree. F. or more above those of the unmodified terpenes.

Abstract: Apparatus and methods for the controlled introduction of submicron-sized bubbles into a fluid stream. The gas-micronizer apparatus of the present invention operates in a manner that maximizes the turbulence of the liquid flow stream at the interface of the porous surface while flowing essentially parallel to the porous surface through which gas enters to form bubbles, thereby ensuring that the gas streams through the pores are dispersed quickly into the bulk liquid flow and/or are of sufficiently small size as to behave as rigid spheres that do not easily coalesce. In a preferred embodiment, the membrane is of generally tubular shape with a nominal surface porosity of 25-30%, and an average pore size below 1 micron (and ideally about 0.2 micron). Fluid is provided to the inlet of the membrane element (by means of a pump) through an inwardly tapered approach conduit. An outwardly tapered exit conduit extends from the outlet end of the element, thereby forming a venturi arrangement.

Abstract: A distillation device for separating a liquid mixture from contaminants contained therein. The device partially cools, using an air radiator or equivalent passive heat-exchange device, a fluid of that contains at least one component of the mixture to be separated; the temperature of the fluid does not fall the ambient air temperature, thus preventing condensation on the heat exchanger. The partially cooled fluid is introduced into an aspirator and combined therein with a gaseous stream produced by heating the mixture to boiling in a separate chamber. Because of the high surface area of contact between vapor and aspirated liquid, the heat transfer is completely effective to condense the gaseous mixture, which settles into a pool. The components can then be separated mechanically or by gravity.

Abstract: A cleaning apparatus that provides for immersion cleaning in one or two solvents. Using a source of inert gas and a recycling loop, the apparatus provides a drying zone above the solvents and prevents escape of solvent vapor into the surrounding atmosphere. The recycling loop maintains nonequilibrium vapor conditions and includes a centrifugal separator, which facilitates separation and recovery of the solvent vapors and the inert gas during normal operation of the system.

Abstract: Ethylene and propylene oxide adducts of rosin amides are novel compositions of matter useful for the protection of metal from corrosiion and useful as surface active agents for the emulsification and demulsification of multi-phase liquid systems. These compounds are prepared by the addition of ethylene or propylene oxide (or mixture of the two) under moderate pressures and temperatures, with or without catalysts, to the starting rosin amides.