Audited Supplier
not defined
CE, ISO
Vertical
Industrial
Calcination Furnace
Material Calcining
Gas
Carbides, Hydroxides
Dynamic Heating
Magnesium Oxide, Zinc Oxide, Nickel Oxide, Kaolin
Even and Sufficient Decomposition
DONGDA POWDER ENGINEERING
Suitable for Shipping
variable
Benxi, China
Product Description
Brief introduction:
By heating, materials such as carbide, hydroxide, or materials containing crystal water undergo pyrolysis to form new products.
Suitable material:
Carbides, hydroxides such as magnesium carbonate, zinc carbonate, magnesium hydroxide, and calcium
hydroxide are heated to form magnesium oxide, calcium oxide, and zinc oxide. The dihydrate gypsum is
heated to remove the crystal water and transforms into hemi-hydrate gypsum or anhydrite. Magnesium
chloride hexahydrate decomposes into magnesium dihydrate and anhydrous magnesium upon heating.
These reactions occur through the process of heating.
The heating methods depend on the state of material in the heating chamber, and dynamic heating is one
of the main methods. It involves mixing wet material (through desiccation) or dry material with
combusted gas, and completing pyrolysis in a flow motion. The above-mentioned heating method is used for
the dynamic pyrolysis furnace. The gas suspension pyrolysis furnace is a modernized version that achieves
this type of decomposition, with its main features including even and sufficient decomposition, good activity
and dispersity of decomposed material, no dust leakage in the system, high degree of automation, and
significant energy saving.
Applied production:
Magnesium oxide, zinc oxide, nickel oxide, kaolin and anhydrite.
Pictures at application sites:
By heating, materials such as carbide, hydroxide, or materials containing crystal water undergo pyrolysis to form new products.
Suitable material:
Carbides, hydroxides such as magnesium carbonate, zinc carbonate, magnesium hydroxide, and calcium
hydroxide are heated to form magnesium oxide, calcium oxide, and zinc oxide. The dihydrate gypsum is
heated to remove the crystal water and transforms into hemi-hydrate gypsum or anhydrite. Magnesium
chloride hexahydrate decomposes into magnesium dihydrate and anhydrous magnesium upon heating.
These reactions occur through the process of heating.
Performance & features:
The heating methods depend on the state of material in the heating chamber, and dynamic heating is one
of the main methods. It involves mixing wet material (through desiccation) or dry material with
combusted gas, and completing pyrolysis in a flow motion. The above-mentioned heating method is used for
the dynamic pyrolysis furnace. The gas suspension pyrolysis furnace is a modernized version that achieves
this type of decomposition, with its main features including even and sufficient decomposition, good activity
and dispersity of decomposed material, no dust leakage in the system, high degree of automation, and
significant energy saving.
Applied production:
Magnesium oxide, zinc oxide, nickel oxide, kaolin and anhydrite.
Pictures at application sites:
