Company Filing History:
Years Active: 1981
Title: Oskar Gehrig: Innovator in Latent Heat Storage Technology
Introduction
Oskar Gehrig was a notable inventor known for his contributions to the field of latent heat storage technology. He was based in Dannstadt, Germany, and his work has had a lasting impact on energy storage solutions. Gehrig's innovative approach to charging latent heat storage devices has paved the way for advancements in thermal energy management.
Latest Patents
Gehrig held a patent for a process aimed at charging a latent heat storage device with a salt hydrate. The patent describes a method for preparing a salt hydrate composition that possesses a phase transition heat greater than the heat capacity of water at a corresponding temperature. The process involves providing an acid component and a base component of the salt hydrate, with at least one of these components being in liquid form. By mixing these components in specific ratios and concentrations, a saturated salt hydrate solution is produced at the desired phase transition point.
Career Highlights
Throughout his career, Oskar Gehrig worked with Benckiser-Knapsack GmbH in Ladenburg, where he focused on developing innovative solutions for energy storage. His work has been recognized for its potential to improve the efficiency of thermal energy systems. Gehrig's dedication to research and development has contributed significantly to advancements in the field.
Collaborations
Gehrig collaborated with several notable colleagues, including Joachim Wasel-Nielen and Karl Merkenich. These partnerships allowed for the exchange of ideas and expertise, further enhancing the quality of their work in energy storage technologies.
Conclusion
Oskar Gehrig's contributions to latent heat storage technology have left a significant mark on the industry. His innovative processes and collaborations with esteemed colleagues have advanced the field and provided valuable insights into energy management solutions. His legacy continues to inspire future innovations in thermal energy storage.