Products Details

The photoelectric water-operating device adopts a new renewable energy source, solar energy (or electricity), to continuously circulate the water which is not easy to generate circulation in the wide waters such as rivers and lakes, and provides abundant oxygen and other active substances to the bottom layer with low dissolved oxygen concentration. Promote the rapid decomposition and elimination of the underlying pollutants, restore the complete ecological food chain in the waters, and gradually purify and repair the water bodies. Through comprehensive management, we thoroughly solve the pollution of rivers and lakes and maintain ecological health. Equipment can also be driven by conventional electric power. The equipment can be equipped with functional modules according to the actual water body to process the water body more efficiently.

2. Equipment specifications

Dimensions (without buoyancy material): diameter 19000±10mm, height 25±5mm;

Dimensions (including buoyancy materials): diameter 27000±10mm, height 10000±10mm, 200kg;

The solar power base station (30000X40000 is foamed inside with a high-density polyethylene float) is connected by stainless steel angle iron.

3. Power

Installed power 1.5KW, output 1.2KW

4. Material and specifications of main components

II. Related matters

 

General matter

1.1 Scope of application

1.1.1 This specification is about solar water circulating water used to remove harmful algae and increase dissolved oxygen concentration in rivers and lakes.

The specification content of the device.

1.1.2 Main content

(1) Installation method: direct installation in the water system, floating mode, anchor pier, fixed chain.

(2) Water circulation devices using solar energy: solar cells, AC motors (continuously variable speed reduction devices), impellers, digital controllers, batteries, etc.

(3) Floating system: wave-resistant HDPE (high-density polyethylene) buoyancy material

 

1.2 Main specifications

1.2.1 Dimensions and weight: Dimensions (including buoyancy materials): Diameter 2,7 m, height 1 m, size (including buoyancy material): diameter 3 m, height 1.3 m, 250 kg

1.2.2 Main component material: (high density polyethylene floating bucket)

1.2.3 Flow true line - 200 meters (40000 square)

1.2.4 Installation depth: 1.0 ~ 50 meters

1.2.5 Drive mode: It adopts independent power drive mode of solar concentrating and battery. (Solar battery module: 4 batteries for charging: 120Ah × 24 knots)

1.2.6 Control mode: (Maximum power point tracking) Mode Adjust the battery voltage according to the battery voltage. Work 10 hours a day, 4 days of battery life

2. Main parts details

2.1 Solar Module

2.1.1 The solar cell module converts solar energy into electrical energy, and collects the built-in battery by collecting light to drive the mechanical motor.

2.1.2 This solar cell module has a total of 32 pieces of 250W, arranged in a square shape. The solar cell module is a 96V battery pack. Depending on the dimensions of the installation area and seasonal factors, it should be adjusted to accept the most direct sunlight.

2.1.3 There should be additional accessories for the prevention of bird intrusion in the upper part of the solar cell module.

 

2.2 Built-in battery

2.2.1 The built-in battery is capable of charging the amount of electricity produced by the solar module during the day. Different from using the device for a long time, it can quickly reduce the battery performance and make

The existing battery with a long life is a solar-powered battery that can be used at night and on cloudy days.

2.2.2 In order to improve work efficiency and extend service life, the built-in battery should be installed to solve the risk of electric leakage caused by direct light and moisture.

(ABS engineering plastic) material inside the casing.

2.2.3 In order to prevent the occurrence of fire, cut off the risk factor, a separate low-voltage valve is used, which can restore the internally generated gas to electricity.

Dissolve the liquid and discharge the internal gas to the outside to solve the high pressure when a fire occurs inside the product.

2.2.4 A high-rigidity special solid electrolyte with impact resistance and high temperature resistance is used. Solid electrolyte does not leak, it does not cause

The product is damaged and causes environmental pollution. It adopts a double closed structure.

2.2.5 The wires connected to the built-in battery should be of anti-corrosion and anti-rust structure.

 

2.3 Digital Controller

2.3.1 The digital controller is installed in the corner around the solar cell module and is firmly fixed by bolts.

2.3.2 A connector for connecting the solar cell module is mounted on the front side, and a motor, a battery, an operating state indicator lamp and a switch are connected to the side.

2.3.3 The switch will send the command signal of the on/off mechanism. When it is turned on, it will be turned to the inside direction and turned to the head. When it is closed, it will be turned to the outside direction to stop the machine.

Device. It can also be used with a timer switch or a 300m remote control switch.

2.3.4 The digital controller can automatically control the solar voltage, current, battery voltage and commands to start the motor. The digital controller should be equipped with a memory that stores the above data.

 

2.4 Motor Controller

2.4.1 Motor controllers and motors should be installed close to each other due to frequent exchange of information.

2.4.2 Waterproof special wire connection with starter motor shall be used for sealing treatment. Receive signals and power from the digital controller.

2.4.3 Wires connected to the motor controller shall be treated with corrosion and rust.

 

2.5 Motor and impeller

2.5.1 The motor should be installed above the barrel and firmly connected to the motor cover and bolts.

2.5.2 Using hydraulic stepless speed control to control the speed, the noise when starting the motor is not high, and the rotation is smooth.

2.5.3 Use a coupling to connect the impeller and shaft below the motor.

2.5.4 The impeller is made of ABS engineering plastic material. The installation has a prompt start state and a rotation direction indication.

2.5.5 The direction of rotation of the impeller is optional for clockwise and counterclockwise directions.

2.5.6 The impeller is made of high-density polyethylene vacuum foaming and fixed to the shaft. Should be able to pump up from the bottom.

 

2.6 dish dispenser

2.6.1 High-density polyethylene vacuum-filled floating buckets contain their own impellers, which can pump the bottom water up and discharge it to the four sides. Made of high density polyethylene

Empty bubble floating bucket.

2.6.2 In order to achieve optimal water flow, the solar energy base station should be at a distance of 5 to 10 meters from the composite solar water. Conducive to the formation of water layers in the Quartet.

2.6.3 A suction pipe for pumping water from the bottom is fixed below the high-density polyethylene floating bucket.

2.7 Suction tube and suction tube bracket

2.7.1 The suction pipe is used to extract the bottom water and connect it to the lower part of the high density polyethylene floating tree.

2.7.2 The length of the suction pipe is the length that can be used in the water layer of .05 to 0.8 m. The diameter is more than 1 meter.

2.7.3 It should be fixed to the bottom of high-density polyethylene paulownia without using any tools.

2.7.4 The end of the inhaled channel suction pipe shall have a suction pipe bracket that prevents the inflow of sediment to the bottom layer. In shallow water without suction pipe, you can

Remove the suction tube

 

2.8 Buoyant material and buoyant material bracket

2.8.1 is a structure in which a composite solar water system floats on a water meter, consisting of (foam filled high density polyethylene) buoyancy material, fixed and

A bracket that supports the buoyant material.

2.8.2 The buoyant material bracket is made of stainless steel and mounted on a rotatable float.

2.8.3 The buoyant material is made of high-density polyethylene and is laminated to provide sufficient buoyancy.

2.8.4 In order not to affect the flow of water discharged from the distributor, the solar power station may select a downstream position from the water circulation device 5-10.

2.8.5 In order to reduce the sloshing of the device caused by the waves, a pile or anchor chain fixed rotary buoy that optimizes performance and efficiency is used.

 

2.9 (fixed)

2.9.1 To prevent the loss and damage of the composite solar water system caused by water flow, install it in one of the following two ways.

(1) Install a mooring anchor on the bottom of the water system and fix it. Two mooring anchors are connected in series, and the pile or anchor chain is fixed. The weight is about 100kg.

The chain connecting the composite solar water system and the mooring anchor should be 2 to 3 times longer than the water depth.

(2) Landline duckbill anchor chains can also be used for anchoring. It is a method used in the case where the water system is narrow or the mooring anchor cannot be installed. A duckbill anchor and an instrumentation pile are fixed on both sides of the water system. , the two duckbill anchors or the stakes are fixedly connected. It is then fixed in the middle of the chain with a short-chain buoyant material.

 

Solar Floating Island Base Station Example