Company Filing History:
Years Active: 1993
Title: Christina O'Lear: Innovator in Flow Injection Analysis
Introduction
Christina O'Lear is a notable inventor based in Hickory, PA (US). She has made significant contributions to the field of flow injection analysis, particularly in measuring total inorganic phosphate in aqueous systems. With a total of 2 patents, her work has advanced the methodologies used in various industrial applications.
Latest Patents
O'Lear's latest patents include innovative methods for flow injection analysis of total inorganic phosphate. One patent describes a method that utilizes a reducing agent and preservative composition as the carrier for the sample. This process allows for the conversion of various polyphosphates to orthophosphate, facilitating the development of the molybdenum blue complex color reaction at temperatures between 60°C and 95°C and under pressures of 2-10 psi. This method is advantageous as it has less stringent pressure and temperature requirements compared to previous methods, enabling the use of more reliable and economical devices for field measurements.
Another patent focuses on the apparatus for injection analysis of total inorganic phosphate, reiterating the same principles and benefits as her first patent. This innovation is particularly useful in environments such as cooling towers and boilers, where accurate measurement of inorganic phosphate is crucial.
Career Highlights
Christina O'Lear is currently employed at Calgon Corporation, where she continues to develop her expertise in flow injection analysis. Her work has been instrumental in enhancing the efficiency and reliability of phosphate measurement techniques.
Collaborations
O'Lear collaborates with Keith J Salamony, contributing to the advancement of their shared field of expertise. Their partnership exemplifies the importance of teamwork in driving innovation.
Conclusion
Christina O'Lear's contributions to flow injection analysis have established her as a key figure in her field. Her innovative patents reflect her commitment to improving measurement techniques, making significant impacts in industrial applications.