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Negative-pressure seaborne settlement disposal method and device for enteromorpha
The invention belongs to the technical field of enteromorpha treatment, and discloses an enteromorpha negative pressure seaborne settlement treatment method and device, and enteromorpha enters a negative pressure treatment system from a normal pressure environment through a feeding system; in the negative pressure treatment system, gas in the enteromorpha is expanded by utilizing a negative pressure bin and then is exhausted from the inside of a gas bag; when the internal air pressure of the enteromorpha air bag is equal to the external negative pressure, the enteromorpha negative pressure treatment is completed; the enteromorpha subjected to negative pressure treatment is placed in a normal-pressure environment, seawater enters the enteromorpha air bag and fills the air position, and after air-liquid replacement of the air bag is completed, the enteromorpha is settled into water through a conveying system. The double pistons and the swing mechanism are alternately matched, continuous feeding and treatment are achieved under the condition that negative pressure is not damaged, and the negative pressure treatment efficiency of enteromorpha is improved; double pistons are connected to the same crankshaft by adopting a crank-link mechanism, so that negative pressure does positive work on the pistons, and the energy consumption of feeding is saved; and the enteromorpha is subjected to inactivation and sedimentation treatment by adopting a negative pressure technology, so that the negative influence on the marine environment is avoided.
本发明属于浒苔处理技术领域,公开了一种浒苔负压海上沉降处置方法及装置,将浒苔通过进料系统从常压环境进入负压处理系统;在负压处理系统中利用负压仓将浒苔内部气体膨胀后从气囊内部排出;当浒苔气囊内部气压与外界负压相等时,浒苔负压处理完成;将负压处理后的浒苔置于常压环境中,海水进入浒苔气囊内部并填补气体位置,完成气囊气液置换后利用输送系统将浒苔沉降至水下。本发明采用双活塞和摆动机构交替配合,在不破坏负压条件下实现连续进料和处理,提高浒苔的负压处理效率;采用曲柄连杆机构使双活塞连接到同一曲轴,实现负压对活塞做正功,节省进料的能源消耗;采用负压技术对浒苔进行灭活和沉降处理,不会对海洋环境造成负面影响。
Negative-pressure seaborne settlement disposal method and device for enteromorpha
The invention belongs to the technical field of enteromorpha treatment, and discloses an enteromorpha negative pressure seaborne settlement treatment method and device, and enteromorpha enters a negative pressure treatment system from a normal pressure environment through a feeding system; in the negative pressure treatment system, gas in the enteromorpha is expanded by utilizing a negative pressure bin and then is exhausted from the inside of a gas bag; when the internal air pressure of the enteromorpha air bag is equal to the external negative pressure, the enteromorpha negative pressure treatment is completed; the enteromorpha subjected to negative pressure treatment is placed in a normal-pressure environment, seawater enters the enteromorpha air bag and fills the air position, and after air-liquid replacement of the air bag is completed, the enteromorpha is settled into water through a conveying system. The double pistons and the swing mechanism are alternately matched, continuous feeding and treatment are achieved under the condition that negative pressure is not damaged, and the negative pressure treatment efficiency of enteromorpha is improved; double pistons are connected to the same crankshaft by adopting a crank-link mechanism, so that negative pressure does positive work on the pistons, and the energy consumption of feeding is saved; and the enteromorpha is subjected to inactivation and sedimentation treatment by adopting a negative pressure technology, so that the negative influence on the marine environment is avoided.
本发明属于浒苔处理技术领域,公开了一种浒苔负压海上沉降处置方法及装置,将浒苔通过进料系统从常压环境进入负压处理系统;在负压处理系统中利用负压仓将浒苔内部气体膨胀后从气囊内部排出;当浒苔气囊内部气压与外界负压相等时,浒苔负压处理完成;将负压处理后的浒苔置于常压环境中,海水进入浒苔气囊内部并填补气体位置,完成气囊气液置换后利用输送系统将浒苔沉降至水下。本发明采用双活塞和摆动机构交替配合,在不破坏负压条件下实现连续进料和处理,提高浒苔的负压处理效率;采用曲柄连杆机构使双活塞连接到同一曲轴,实现负压对活塞做正功,节省进料的能源消耗;采用负压技术对浒苔进行灭活和沉降处理,不会对海洋环境造成负面影响。
Negative-pressure seaborne settlement disposal method and device for enteromorpha
一种浒苔负压海上沉降处置方法及装置
LI HUAJUN (author) / ZHANG BAOCHENG (author) / ZHANG XUPENG (author) / WANG QIANG (author) / ZHANG KAISHENG (author) / CHEN YUJING (author)
2024-02-27
Patent
Electronic Resource
Chinese
IPC:
E02B
HYDRAULIC ENGINEERING
,
Wasserbau
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