SALT HYDRATE COMPOSITES FOR THERMOCHEMICAL ENERGY STORAGE AND METHODS OF MAKING THEREOF

Organization Name

The Regents of the University of California

Inventor(s)

Sumanjeet Kaur of Pinole CA (US)

Ravi Prasher of Danville CA (US)

Andrew Martin of Berkeley CA (US)

Drew Lilley of Berkeley CA (US)

Alondra Perez of Berkeley CA (US)

SALT HYDRATE COMPOSITES FOR THERMOCHEMICAL ENERGY STORAGE AND METHODS OF MAKING THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 18522851 titled 'SALT HYDRATE COMPOSITES FOR THERMOCHEMICAL ENERGY STORAGE AND METHODS OF MAKING THEREOF

Simplified Explanation: The patent application relates to salt hydrate composites and a method for their preparation without the use of water.

• Salt hydrate composites are created by mixing a salt hydrate, a matrix material, and a binder, followed by ball milling without water.
• The method ensures the formation of salt hydrate composites without the need for water, which can simplify the manufacturing process.
• The innovation allows for the production of salt hydrate composites with improved properties and performance.

Potential Applications: The technology can be applied in industries such as construction, energy storage, and thermal management systems.

Problems Solved: This technology addresses the challenges associated with the traditional methods of producing salt hydrate composites, which often require the use of water.

Benefits: The method offers a more efficient and environmentally friendly way to create salt hydrate composites, leading to enhanced product quality and performance.

Commercial Applications: The technology can be utilized in the development of advanced materials for various commercial applications, including energy storage systems and building materials.

Prior Art: There is limited information available on prior art related to the specific method of preparing salt hydrate composites without water.

Frequently Updated Research: Ongoing research may focus on optimizing the composition of salt hydrate composites and exploring new applications for this innovative technology.

Questions about Salt Hydrate Composites: 1. How does the absence of water in the preparation process impact the properties of salt hydrate composites? 2. What potential cost savings can be achieved by using this method compared to traditional approaches?

Original Abstract Submitted

This disclosure provides systems, methods, and apparatus related to salt hydrate composites. In one aspect, a method includes mixing a salt hydrate, a matrix material, and a binder to form a mixture. The mixture is ball milled. The mixing operation and the ball milling operation are performed without water.