Nathan T Hancock

Title: Nathan T Hancock: Innovator in Osmotic Separation Technologies

Introduction

Nathan T Hancock is a prominent inventor based in Boston, MA, known for his contributions to the field of osmotic separation technologies. With a total of three patents to his name, Hancock has made significant strides in developing innovative methods for solvent extraction and concentration processes.

Latest Patents

Hancock's latest patents focus on osmotic separation systems and methods. One of his notable inventions involves separation processes that utilize osmotically driven membrane systems. This technology allows for the extraction of solvent from a first solution to concentrate solute by employing a second concentrated solution to draw the solvent across a semi-permeable membrane. Another patent elaborates on systems and processes for handling feed streams without pretreatment, aiming for increased brine concentration for zero liquid discharge. This includes techniques such as forward osmosis separation (FO), direct osmotic concentration (DOC), pressure-assisted forward osmosis (PAFO), and pressure retarded osmosis (PRO). The system comprises multiple forward osmosis units, each equipped with a semi-permeable membrane assembly and a tank, along with a separation system designed to differentiate the dilute draw solution into concentrated draw solution and solvent.

Career Highlights

Hancock is currently associated with Oasys Water, Inc., where he continues to advance his research and development in osmotic separation technologies. His work has positioned him as a key player in the industry, contributing to sustainable water management solutions.

Collaborations

Hancock collaborates with notable colleagues such as Marek S Nowosielski-Slepowron and Christopher Drover, enhancing the innovative capabilities of his projects through teamwork and shared expertise.

Conclusion

Nathan T Hancock's work in osmotic separation technologies exemplifies the impact of innovative thinking in addressing critical environmental challenges. His patents and ongoing research contribute significantly to advancements in water treatment and resource management.