What is Silica Gel Desiccant?
Silica gel is a porous and amorphous form of silicon dioxide, commonly used as a desiccant to absorb moisture and humidity. Silica gel can be classified into two main types: Type A and Type B.
What is Molecular sieve active powder?
Molecular sieves and molecular sieve active powder are closely related, and they have the same chemical composition. It is a type of porous material commonly used for adsorption and separation processes in various industrial applications.
What is Molecular Sieve Desiccant?
Molecular sieve desiccant is a highly porous material known for its ability to selectively adsorb and remove specific molecules from its surroundings, making it a valuable tool for moisture control, especially under low-temperature conditions.
What is Calcium Montmorillonite Desiccant?
What is Calcium montmorillonite desiccant? Calcium montmorillonite desiccant is a type of moisture-absorbing material that utilizes the properties of calcium montmorillonite clay to control humidity and prevent moisture-related issues. Montmorillonite adopts physical adsorption and can absorb more than 17% of its weight of water vapor at 25° C and RH40%. Montmorillonite particles can be reused […]
What is Calcium Chloride Desiccant?
What is Calcium Chloride desiccant? What is Calcium Chloride desiccant? Calcium chloride desiccant is a type of moisture-absorbing material that utilizes the hygroscopic properties of calcium chloride to control humidity and prevent moisture-related issues in various environments. It can be used as a multipurpose desiccant in the industrial field, such as for drying nitrogen, oxygen, […]
What is Activated Alumina Desiccant?
What is Activated alumina? Activated alumina desiccant is a highly porous, granular substance made from aluminum oxide. The activation process involves heating aluminum hydroxide in a way that creates a network of interconnected pores, resulting in a large surface area and high adsorption capacity. Activated alumina desiccant is widely used in industries such as gas […]