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A platform for research: civil engineering, architecture and urbanism
Typhoon-resistant floating breakwater system and control method thereof
A floating breakwater, with airbags which inflate and deflate to raise and lower the breakwater, to prevent it from being damaged in storms. It has an equipment cabin (1 figure 5) and an airbag cabin (2 figure 5) mounted below. The equipment cabin contains a signal transceiver 1-3, a solar cell module and energy storage 1-2, a controller 1-1, an air distributer 1-7, an air compressor 1-4 and more than one air storage tanks 1-5. The solar cell module, energy storage and transceiver are mounted on an upper surface of the equipment cabin, and signals from the transceiver may control the floating and diving of the airbag cabin. The central air distributer is mounted in the equipment cabin and connected to the air compressor and storage tank through pipelines 1-9. The controller sends control instructions to the air distributer and the air compressor. The airbag cabin comprises multiple airbag units, which may be arranged evenly in layers with electromagnetic valves, independent air chambers and each with an airbag interface and which is connected to the air storage tank. The main structure may be made of steel and solar module and energy device designed integrally. A method of control using solar energy is also disclosed.
Typhoon-resistant floating breakwater system and control method thereof
A floating breakwater, with airbags which inflate and deflate to raise and lower the breakwater, to prevent it from being damaged in storms. It has an equipment cabin (1 figure 5) and an airbag cabin (2 figure 5) mounted below. The equipment cabin contains a signal transceiver 1-3, a solar cell module and energy storage 1-2, a controller 1-1, an air distributer 1-7, an air compressor 1-4 and more than one air storage tanks 1-5. The solar cell module, energy storage and transceiver are mounted on an upper surface of the equipment cabin, and signals from the transceiver may control the floating and diving of the airbag cabin. The central air distributer is mounted in the equipment cabin and connected to the air compressor and storage tank through pipelines 1-9. The controller sends control instructions to the air distributer and the air compressor. The airbag cabin comprises multiple airbag units, which may be arranged evenly in layers with electromagnetic valves, independent air chambers and each with an airbag interface and which is connected to the air storage tank. The main structure may be made of steel and solar module and energy device designed integrally. A method of control using solar energy is also disclosed.
Typhoon-resistant floating breakwater system and control method thereof
JIE CUI (author) / ZICHAO LI (author) / CHUNYAN JI (author) / TAORAN ZHOU (author) / JIANTING GUO (author)
2020-06-10
Patent
Electronic Resource
English
IPC:
E02B
HYDRAULIC ENGINEERING
,
Wasserbau
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