Harvel A Wright

Title: Harvel A Wright: Innovator in Health Physics Instrumentation

Introduction

Harvel A Wright is a notable inventor based in Knoxville, TN (US), recognized for his contributions to health physics and radiation measurement technologies. With a total of 5 patents, Wright has developed innovative systems that enhance the accuracy and efficiency of radiation detection and analysis.

Latest Patents

One of his latest patents is the "Activity Weighted Particle Size Distribution System." This system is designed to measure the size distribution of particles that have radioactive atoms attached. It includes an air flow channel for receiving an influx of radioactive atoms, a fan for controlling the air flow rate, wire mesh screens, and alpha particle detectors to detect the radioactive atoms. The outputs from these detectors can be connected to a computer for further analysis.

Another significant patent is the "Instrument Simulator System." This health physics instrument simulator allows operators to simulate the measurement of radiation levels across various radiation types. It features a memory for storing data that represents a predetermined physical location, along with data defining a radiation source, including its strength, type, and location. The system also includes a selecting device for choosing a simulated radiation sensing instrument and a display for showing both the instrument's readings and radiation intensity data.

Career Highlights

Throughout his career, Harvel A Wright has worked with several companies, including Consultec Scientific, Inc. and Pellissippi International. His work has significantly impacted the field of health physics, particularly in the development of advanced measurement systems.

Collaborations

Wright has collaborated with notable individuals in his field, including George S Hurst and G Samuel Hurst. These collaborations have contributed to the advancement of technologies in radiation measurement and health physics.

Conclusion

Harvel A Wright's innovative work in health physics instrumentation has led to the development of critical technologies that improve radiation detection and analysis. His contributions continue to influence the field and enhance safety in environments where radiation is present.