38mm Tower Packing Ceramic Pall Ring for Scrubbing Tower

Basic Info.

Model NO.	NK-CPR
Usage	Catalyst Support
Effect	Ceramic Raschig Ring
Source	Particle
Void Volume(%)	73, 70, 78, 81, 68
Sio2	>73%
Al2O3	17-23%
Surface Area	789, 330, 190, 93, 90
Quality Management	ISO9001:2008
Transport Package	Carton Box; Palletized + Plastic Film Wrapped. Woo
Specification	16, 25, 38, 50, 76mm
Trademark	NKCHEM
Origin	China

Product Description

38mm tower packing ceramic pall ring for scrubbing tower ceramic pall ring For Distillation Column

arameters of Ceramic Saddle Packing

Name	Sze	Diameter(mm)	Weight(kg/m3)	Pieces(m3)	Surface Area(m2/m3)	Void(%)
Ceramic intalox Saddle Ring	Φ13	13*13*2	880	450000	480	65
	Φ16	16*12*2	710	382000	450	70
	Φ25	25*19*3	680	84000	250	74
	Φ38	38*30*4	630	25000	164	75
	Φ50	50*40*5	580	9300	142	76
	Φ76	76*57*9	520	1800	92	78

Advantages of Ceramic Saddle Packing

• Low pressure drop and high efficiency

• Large effective interfacial area

• High mechanical strength

• Low cost

Ceramic Saddle Packing Material

Ceramic saddle packing material is a type of random packing used in distillation and absorption columns in chemical and petrochemical industries. It consists of small, saddle-shaped ceramic pieces that are stacked in layers to create a high surface area for contact between the gas and liquid phases.

Ceramic material provides several advantages over other types of packing materials, such as plastic or metal. For example, ceramic saddle packing has a high resistance to thermal shock and corrosion, making it suitable for use in high-temperature and aggressive chemical environments. Additionally, its unique shape allows for effective liquid distribution and low-pressure drop, resulting in improved efficiency and performance of the column.

Ceramic saddle packing material is available in various sizes and shapes to accommodate different column sizes and process requirements. The most commonly used ceramic material is alumina, although other materials such as zirconia and titania can also be used. The choice of material depends on the specific requirements of the process, such as chemical resistance and temperature range.

Ceramic Saddles Application

Ceramic saddles are commonly used as packing material in distillation and absorption columns in the chemical and petrochemical industries. They provide a large surface area for the contact between the gas and liquid phases, allowing for efficient separation and purification of various chemical compounds.

Some of the applications of ceramic saddles include:

Distillation of crude oil: Ceramic saddles are used in crude oil distillation columns to separate different fractions of crude oil based on their boiling points. The large surface area of the saddles allows for efficient separation of the different components of crude oil, such as gasoline, diesel, and lubricants.

Absorption of gases: Ceramic saddles can be used to remove impurities or unwanted gases from gas streams. The gas stream is passed through a column packed with ceramic saddles, and the impurities are absorbed onto the surface of the saddles.

Chemical processing: Ceramic saddles are used in chemical processing to separate and purify various chemical compounds. They can be used for solvent recovery, dehydration, and removal of impurities from chemical streams.

Water treatment: Ceramic saddles can be used in water treatment processes to remove impurities and contaminants from water. They are commonly used in desalination processes to remove salt and other minerals from seawater.

Overall, ceramic saddles offer a high surface area, low-pressure drop, and excellent chemical resistance, making them a popular choice for various applications in the chemical and petrochemical industries.