Huntington Beach

Technical data. Fleck Report, Fleck International, Huntington Beach, Calif., 1992. 

ERIC R. SCHWARTZ, The Boeing Company, Huntington Beach, California... 

Trottier, T. Krishnamoorthy, V. Zhang, X.-M. Peterson, R. Holloway, P. Extended Abstracts of the Third International Conference on the Science and Technology of Display Phosphors, Huntington Beach, CA, Nov 3-5, 1997 321-324. 

The mechanical strength of the composite disk specimens was tested, before and after immersion, under biaxial flexure conditionsn [8-10] with a universal testing machine (United Calibration Corp., Huntington Beach, CA). The biaxial flexure strength (BES) of the specimens was calculated according to mathematical expression (1) [8-10] ... 

In 1991, the SERF was demonstrated at the Rainbow Disposal site in Huntington Beach, California, under the Environmental Frotection Agency s (EFA s) Superfund Innovative Technology Evaluation (SITE) program. Total costs for the remediation at the site was approximately 4,400,000. This cost does not include legal fees. The total amount of soil that was considered to have undergone treatment was 95,000 yd, which includes the volume of soil within the treatment perimeter between the depths of 20 and 40 ft. This yields a treatment cost of 43/yd (D15382M, p. 7). 

Huntington Beach, CA Missouri Electric Works, ISTD VOCs, PCBs Not available 120-200/yd ... 

Arcadene 242A Propellant , Rept MDC G5460, McDonnell Douglas Astronautics Co-West, Huntington Beach (1974) 231) E. Martin et al,... 

Lee, John R. Environmental Illness Could Chemical Overload Be the Cause of Your Illness Interview with William J. Rea, M.D., Huntington Beach, Calif, http // www.johnleemd.com/store/env illness.htm 1. 

Proceedings of POSS Nanotechnology Conference, Huntington Beach, CA, September 2002. 

Piechocki J. Pharmaceutical photostabiUty how to select the right option. University of Wisconsin, Pharmaceutical Stability, Current Trends and Practices, Huntington Beach, CA, October 21-22, 2000. 

Proceeds of 20th Capacitor and Resistor Technology Symposium (CARTS 2000), Huntington Beach, CA, p. 140. Samsonov, G.V. (ed.) (1978) Handbook of Physico-Chemical Properties of Oxides (in Russian), Metallurgiya, Moscow. 

Huntington Beach Farmers Market 5th Walnut Huntington Beach, CA tr 714-573-0374 Year-round - Friday... 

Figure 1. Various production zones at the Huntington Beach field...

In this paper we report first the spontaneous emulsification mechanisms in the petroleum sulfonate and caustic systems. This is followed by the kinetics of coalescence in alkaline systems for both the Thums Long Beach (heavy) crude oil and the Huntington Beach (less viscous) crude oil. Measurements of interfacial viscosity, interfacial tension, interfacial charge and micellar aggregate distributions are presented. Interrelationships between these properties and coalescence rates have been established. 

Figure 3 shows a representative photomicrograph of the Huntington Beach crude oil-alkaline emulsion taken at 400 magnification in a continuous aqueous phase. The emulsion contained one part by volume of oil phase to twenty parts aqueous phase. 

A series of experiments were conducted to determine the emulsion stability in caustic systems. Figures 6 and 7 show data for the kinetics of coalescence and hence emulsion stability for the crude oil from Huntington Beach (Lower Main Zone), California (oil gravity of 23°API and oil acid number of 0.65). Figure 6 shows data for a nonequilibrated system and for a very low concentration of NaOH (0.003%) and 1% NaCl. This emulsion is unstable. Figure 7 shows data for two different concentrations of... 

Figure 4. Drop-size distributions for Huntington Beach crude oil-caustic emulsions...

Figure 9 shows the interfacial tension between the Huntington Beach crude oil and sodium hydroxide as a function of the age of the interface. The interfacial tension is found to increase with the age of the interface. This behavior is similar... 

Figure 7. Kinetics of coalescence for equilibrated samples of Huntington Beach crude oil-caustic systems...

Figures 10 and 11 display both the interfacial tension and electrophoretic mobility data for Huntington Beach crude as a function of NaOH concentration in aqueous solutions containing 1% NaCl. It is to be noted that as in the case of the Long Beach crude, the minimum in interfacial tension corresponds to the maximum in electrophoretic mobility and hence interfacial charge. It should be further stated that this behavior is the same for both the equilibrated system (Figure 10) and for the non-equilibrated system (Figure 11). In the latter case, the interfacial tension reported here is the initial value at a given NaOH concentration. It is observed that the minimum interfacial tension for the pre-equilibrated system lies at about 0.06% NaOH whereas the minimum for the non-equilibrated sample is between 0.003% and 0.005% NaOH concentration. Furthermore, the minimum interfacial tension in this case is below 0.001 dynes/cm.

Figure 13 exhibits both interfacial tension and electrophoretic mobility for the Huntington Beach Field crude oil against sodium orthosilicate containing no sodium chloride. The interfacial tension values are observed to be higher for the non-equilibrated sample in this case than for the caustic system reported in Figure 12. The minimum interfacial tension of 0.01 dynes/cm occurs at about 0.2% sodium silicate as opposed to a value of less than 0.002 dyne/cm at about 0.06% NaOH. It is interesting to note, however, that the maximum electrophoretic mobility is the same for the two systems. Once again, it should be noted that a maximum in electrophoretic mobility does not correspond to a minimum in interfacial tension for those samples which contained no sodium chloride.

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