Company Filing History:
Years Active: 2009
Title: **Walter N. Simmons: Innovator in Silica Gel Technology**
Introduction
Walter N. Simmons, based in Durham, NC, is a notable inventor recognized for his contributions to the field of silica gel technology. With a keen focus on innovations that enhance the manufacturing process of polysilicate gels, he has made significant strides in sustainable chemistry through his patented processes.
Latest Patents
Simmons holds a patent for a "High velocity, low pressure process for making silica gels and microgels." This innovative process includes converting silica into polysilicate gels or hydrogels by combining an aqueous silica source with a carbon dioxide feed stream as the gel initiator. The technique involves propelling the reaction stream at high velocity and turbulence, ensuring optimal CO2 uptake rates during the reaction. Additionally, his patent covers pre-carbonating water at pressures of 100 psig or greater prior to initiating the polysilicate reaction, showcasing a revolutionary approach in the field.
Career Highlights
Walter N. Simmons has made his mark in the industry while working with Ciba Specialty Chemicals Corporation. His dedication to advancing chemical processes has garnered him recognition and respect among peers and industry experts alike. His innovative ideas have contributed significantly to the understanding and application of silica structures in various industries.
Collaborations
An influential figure in his field, Simmons often collaborates with his coworker, Walter John Simmons. Together, they have shared insights and expertise, pushing the boundaries of innovation in silica gel technology.
Conclusion
Walter N. Simmons stands out as an inventor whose work in creating efficient processes for silica gel and polysilicate production is redefining industry standards. His patented innovations not only enhance manufacturing efficacy but also pave the way for environmentally friendly practices in chemical production. As a leader in this domain, Simmons's contributions are poised to have a lasting impact on future developments in silica technology.