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customized type
Gongtang
8479820010
The jacket form of /Jiangsu Gongtang /glass-lined reaction tank /is generally in the form of an integral jacket, which is characterized by/ simple structure and convenient production. However, due to the structural form, the /heat exchange medium/ is prone to short circuit, easy scaling and other shortcomings, which can not fully meet the needs of users in many occasions. Jiangsu Gongtang/ has successfully developed a type of glass-lined /half-pipe coiled reaction tank /after years of research /and development tests and practical use, combined with foreign advanced technology experience.
Performance comparison between /Jiangsu Gongtang /glass-lined half-pipe coiled jacket /and /overall jacket/:
1. Container type /and safety: The overall jacket general pressure resistance is 0.6~0.8Mpa. If higher pressure is required, the thickness of the steel plate needs to be increased. The half-pipe jacket method/ belongs to the liquid flow heating or cooling/ operation method, which can withstand the pressure at 1.5~2.0Mpa. In terms of safety, the half-pipe coiled jacket type/ is not regulated equipment , and its pressure resistance/ is much higher than that of the overall jacket, making it safer and more controllable to use.
2. Heat exchange effect: Although the heat exchange area /of the/ half-pipe coiled jacket method/ is about 1/3 smaller than that of the outer jacket method, the flow rate/ can be increased to/ 2~3 times that of the outer jacket method, which actually increases the heat transfer efficiency.While the overall jacketed heat transfer medium/ is easy to form turbulence, short circuit, uneven heat transfer,but the half-pipe coiled jacket type does not have this defect. Therefore, the effect of the half-pipe jacket method is remarkable. The half-pipe jacket design /can greatly reduce /the required cooling water flow and the required pump pressure to obtain better heat transfer capabilities than conventional jackets.
3. Rigidity: The half-pipe jacket enhances the rigidity of the reactor. The half-pipe jacket belongs to the high-speed flow/ heat exchange method, which reduces the external pressure on the inner tank body and actually enhances the rigidity of the reactor.
4. Corrosion resistance comparison: when cooling with cooling brine,corrosion is easy to form, and the overall jacket method is easy to form solution deposition and corrosion; the half-pipe coiled jacket type method adopts/ bottom-in and top-out /high-speed/ circulation which not easy to form deposition , and scaling is not easy to corrode the tube wall.
5. Avoid contamination by different media: For heating and cooling that need to be performed alternately, and the heating and cooling media are different media, an independent double-pass half-coil style can be used to avoid mutual contamination of residual cold and hot media and facilitate the switching operation of cold and hot media.
The jacket form of /Jiangsu Gongtang /glass-lined reaction tank /is generally in the form of an integral jacket, which is characterized by/ simple structure and convenient production. However, due to the structural form, the /heat exchange medium/ is prone to short circuit, easy scaling and other shortcomings, which can not fully meet the needs of users in many occasions. Jiangsu Gongtang/ has successfully developed a type of glass-lined /half-pipe coiled reaction tank /after years of research /and development tests and practical use, combined with foreign advanced technology experience.
Performance comparison between /Jiangsu Gongtang /glass-lined half-pipe coiled jacket /and /overall jacket/:
1. Container type /and safety: The overall jacket general pressure resistance is 0.6~0.8Mpa. If higher pressure is required, the thickness of the steel plate needs to be increased. The half-pipe jacket method/ belongs to the liquid flow heating or cooling/ operation method, which can withstand the pressure at 1.5~2.0Mpa. In terms of safety, the half-pipe coiled jacket type/ is not regulated equipment , and its pressure resistance/ is much higher than that of the overall jacket, making it safer and more controllable to use.
2. Heat exchange effect: Although the heat exchange area /of the/ half-pipe coiled jacket method/ is about 1/3 smaller than that of the outer jacket method, the flow rate/ can be increased to/ 2~3 times that of the outer jacket method, which actually increases the heat transfer efficiency.While the overall jacketed heat transfer medium/ is easy to form turbulence, short circuit, uneven heat transfer,but the half-pipe coiled jacket type does not have this defect. Therefore, the effect of the half-pipe jacket method is remarkable. The half-pipe jacket design /can greatly reduce /the required cooling water flow and the required pump pressure to obtain better heat transfer capabilities than conventional jackets.
3. Rigidity: The half-pipe jacket enhances the rigidity of the reactor. The half-pipe jacket belongs to the high-speed flow/ heat exchange method, which reduces the external pressure on the inner tank body and actually enhances the rigidity of the reactor.
4. Corrosion resistance comparison: when cooling with cooling brine,corrosion is easy to form, and the overall jacket method is easy to form solution deposition and corrosion; the half-pipe coiled jacket type method adopts/ bottom-in and top-out /high-speed/ circulation which not easy to form deposition , and scaling is not easy to corrode the tube wall.
5. Avoid contamination by different media: For heating and cooling that need to be performed alternately, and the heating and cooling media are different media, an independent double-pass half-coil style can be used to avoid mutual contamination of residual cold and hot media and facilitate the switching operation of cold and hot media.
