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Farmland Irrigation

PV Energy Storage System For Farmland Irrigation

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What is PV Energy Storage System For Farmland Irrigation ?

The farmland irrigation photovoltaic energy storage system is a system that combines photovoltaic (PV) solar panels with energy storage technology to provide reliable and sustainable power for the farmland irrigation system. Photovoltaic solar panels use sunlight to generate electricity to power irrigation pumps and other equipment needed to water crops.

The energy storage component of the system can store excess energy generated during the day for use when sunlight is insufficient or at night, ensuring continuous and reliable power supply for the irrigation system. This helps reduce dependence on the grid or diesel generators, resulting in cost savings and environmental benefits.

Overall, photovoltaic energy storage systems for farmland irrigation can help farmers reduce energy costs, increase energy independence, and contribute to sustainable agricultural practices.

Battery System

Battery Cell

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Parameters

Rated Voltage 3.2V
Rated  Capacity 50Ah
Internal Resistance  ≤1.2mΩ
Rated working current 25A(0.5C)
Max. charging voltage 3.65V
Min. discharge voltage 2.5V
Combination Standard A. Capacity Difference≤1%
B. Resistance()=0.9~1.0mΩ
C. Current-maintaining Ability≥70%
D. Voltage3.2~3.4V

Battery Pack

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Specification

Nominal Voltage 384V
Rated Capacity 50Ah
Minimal Capacity(0.2C5A) 50Ah
Combination Method 120S1P
Max. Charge Voltage 415V
Discharge cut-off voltage 336V
Charge Current 25A
Working Current 50A
Maximum discharge current 150A
Output and Input P+(red) / P-(black)
Weight Single 62Kg+/-2KgOverall 250Kg+/-15Kg
Dimension(L×W×H) 442×650×140mm(3U chassis)*4442×380×222mm(control box)*1
Charge Method Standard 20A×5hrs
Quick 50A×2.5hrs.
Operating Temperature Charge -5℃~60℃
Discharge -15℃~65℃
Communication interface R RS485RS232

Monitoring System

Display(Touch Screen):

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewIntelligent IoT with ARM CPU as the core
png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-preview Frequency of 800MHz
png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-preview7-inch TFT LCD display
png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewResolution of 800*480
png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewFour-wire resistive touch screen
png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewPre-installed with McgsPro configuration software

Parameters:

Project TPC7022Nt 
Product Features LCD screen 7”TFT Externalinterface serial interface Method 1: COM1(232), COM2(485), COM3(485)Method 2: COM1(232), COM9(422)
Backlight type led USB interface 1XHost
Display color 65536 Ethernet port 1X10/100M adaptive
Resolution 800X480 Environmental conditions Operating temperature 0℃~50℃
Display brightness 250cd/m2 Working humidity 5%~90% (no condensation)
touch screen Four-wire resistive storage temperature -10℃~60℃
Input voltage 24±20%VDC Storage humidity 5%~90% (no condensation)
rated power 6W Productspecifications Case material Engineering plastics
processor ARM800MHz Shell color industrial gray
Memory 128M physical dimension(mm) 226x163
System storage 128M Cabinet openings(mm) 215X152
Configuration Software McgsPro ProductCertificate certified product Comply with CE/FCC certificationstandards
Wirelessextension Wi-Fi interface Wi-Fi IEEE802.11 b/g/n Protection level IP65(front panel)
4Ginterface China Mobile/China Unicom/Telecom Electromagnetic Compatibility Industrial level three

Product Apperance Design

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Back View

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Inside View

Heavy-Load Vector Frequency Converter

Introduction

The GPTK 500 series converter is a versatile and high-performance converter designed to control and adjust the speed and torque of three-phase AC asynchronous motors.

It utilizes advanced vector control technology to deliver low-speed, high-torque output.

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Specification

Item Technical Specifications
Input Frequency Resolution Digital Settings:0.01HzAnalogue Settings:Max frequency×0.025%
Control Mode Sensorless Vector Control(SVC)V/F Control
Starting torque 0.25Hz/150%(SVC)
Speed Range 1:200(SVC)
Steady Speed Accuracy ±0.5%(SVC)
Torque Increase Automatic Torque Increase;Manual TorqueIncrease:0.1%~30%.
V/F Curve Four Ways:Linear;Multipoint;FullV/Fseparation;Incomplete V/FSeparation.
Acceleration/Deceleration Curve Linear or S-curve acceleration and deceleration; Four acceleration/deceleration times,timescale:0.0~6500s.
DC Brake DC braking start frequency:0.00Hz~Max frequency;Braking time:0.0~36.0s;Braking action current value:0.0%~100%.
Inching Control Inching frequency range:0.00Hz~50.00Hz; Inching acceleration/decelerationtime:0.0s~6500s.
Simple PLC、Multi-speedoperation Up to 16 speeds via built-in plc or controlterminals
Built-in PID Closed-loop control systems for process controlcan be easily realised
Automatic VoltageRegulator(AVR) Can automatically keep the output voltageconstant when the grid voltage changes
Overpressure and overcurrent speed control Automatic limitation of current and voltage during operation to prevent frequentover-current and over-voltage tripping.
Fast current limit function Minimise overcurrent faults
Torque limiting and control of instantaneous non-stop "Digger" feature, automatic limiting of torque during operation to prevent frequent overcurrent trips; vector control mode for torque control; Compensate for voltage drop during transient power failure by feeding energy back to the load, maintaining the inverter in continuousoperation for a short period of time

Solar Photovoltaic MPPT Module

Introduction

TDD75050 module is a DC/DC module specially developed for DC power supply, with high efficiency, high power density and other advantages.

Specification

Category Name  Parameters 
DC Input Rated voltage  710Vdc 
Input voltage range  260Vdc~900Vdc 
DC Output Voltage range  150Vdc to 750Vdc 
Current range  0 ~ 50A (current limit point can be set)
Rated current  26A (required to set current limit point)
Voltage stabilization accuracy  < ± 0.5% 
Steady flow accuracy ≤± 1% (output load 20% ~ 100% rated range)
Load adjustment rate ≤± 0.5% 
Start the overshoot  ≤± 3% 
Noise Index Peak-to-peak noise  ≤1% (150 to 750V, 0 to 20MHz) 
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Category  Name  Parameters 
Others Efficiency  ≥ 95.8%, @750V, 50% ~ 100% load current, rated 800V input 
Standby power consumption  9W (input voltage is 600Vdc) 
Instant impulse current at startup  < 38.5A 
Flow equalization  When the load is 10% ~ 100%, the current sharing error of the module is less than ± 5% of the rated output current 
Temperature coefficient (1/℃)  ≤± 0.01% 
Startup time (select the power- on mode through the monitoring module) Normal power on mode: Time delay from DC power-on to module output ≤8s 
Output slow start: the start time can be set through the monitoring module, the default output start time is 3~8s  
Noise  No more than 65dB (A) (away from 1m) 
Ground resistance  Ground resistance ≤0.1Ω, should be able to withstand current ≥25A 
Leakage current  Leakage current ≤3.5mA 
Insulation resistance  Insulation resistance ≥10MΩ between the DC input and output pair housing and between the DC input and DC output 
ROHS  R6 
Mechanical Parameters Measurements  84mm (height) x 226mm (width) x 395mm (depth) 

Inverter Galleon III-33 20K

 Parameters

Model Number 10KL/10KLDual Input 15KL/15KLDual Input 20KL/20KLDual Input 30KL/30KLDual Input 40KL/40KLDual Input
Capacity 10KVA / 10KW 15KVA / 15KW 20KVA / 20KW 30KVA / 30KW 40KVA / 40KW
Input
VoltageRange Minimum conversion voltage 110 VAC(Ph-N) ±3% at 50% load: 176VAC(Ph-N) ±3% at 100% load
Minimum recovery voltage Minimum conversion voltage +10V
Maximum conversion voltage 300 VAC(L-N)±3% at 50% load; 276VAC(L-N)±3% at 100% load
Maximum recovery voltage Maximum conversion voltage-10V
Frequency Range 46Hz ~ 54 Hz @ 50Hz system56Hz ~ 64 Hz @ 60Hz system
Phase 3 phases + neutral
Power Factor ≥0.99 at 100% load
Output
Phase 3 phases + neutral
Output Voltage  360/380/400/415VAC (Ph-Ph)
208*/220/230/240VAC (Ph-N)
AC Voltage accuracy ± 1%
Frequency range (synchronization range) 46Hz ~ 54 Hz @ 50Hz system56Hz ~ 64 Hz @ 60Hz system
Frequency range (battery mode) 50Hz±0.1Hz or 60Hz±0.1Hz
Overload AC mode 100%~110%:60 minutes;110%~125%:10 minutes;125%~150%:1 minute;>150%:immediately
Battery mode 100%~110%: 60 minutes; 110%~125%: 10 minutes; 125%~150%: 1 minute; >150%: immediately
Current peak ratio 3:1 (maximum)
Harmonic distortion ≦ 2 % @ 100% linear load; ≦ 5 % @ 100% nonlinear load
Switching time  Mains power←→Battery 0 ms
Inverter←→Bypass 0ms (phase lock failure, <4ms interrupt occurs)
Inverter←→ECO 0 ms (mains power lost, <10 ms)
Efficiency
AC mode 95.5%
Battery mode 94.5%

 

IS Water Pump

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Introduction

IS Water Pump:

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewThe IS series pump is a single-stage, single-suction centrifugal pump designed according to the international standard ISO2858.

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewIt is used to transport clean water and other liquids with similar physical and chemical properties to clean water, with a temperature not exceeding 80°C.

IS Performance Range (Based on Design Points):

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-preview Speed: 2900r/min and 1450r/min Inlet Diameter: 50-200mm Flow Rate: 6.3-400 m³/h Head: 5-125m

 

Fire Protection System

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewThe overall energy storage cabinet can be divided into two separate protection areas.

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewThe concept of "multi-level protection" is mainly to provide fire protection for the two separate protection areas and make the entire system act in association, which can truly put out the fire quickly.

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewAnd prevent it from re-igniting, ensuring the safety of the energy storage station.

The two separate protection zones:

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewPACK level protection: The battery core is used as the source of fire, and the battery box is used as the protection unit.
png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewCluster level protection: The battery box is used as the fire source and the battery cluster is used as the protection unit

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Pack Level Protection 

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewThe hot aerosol fire extinguishing device is a new type of fire extinguishing device suitable for relatively enclosed spaces such as engine compartments and battery boxes.

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewWhen a fire occurs, if the temperature inside the enclosure reaches around 180°C or an open flame appears,

png-clipart-check-mark-graphy-tick-others-angle-plant-stem-removebg-previewThe heat-sensitive wire detects the fire immediately and activates the fire extinguishing device inside the enclosure, simultaneously outputting a feedback signal.

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Cluster Level Protection

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Rapid hot aerosol fire extinguishing device

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Electrical Schematic 

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The benefits of using photovoltaic energy storage systems for farmland irrigation are many and can have a significant impact on agricultural production.

Some Key Benefits:

1. Cost savings: By harnessing solar energy and storing excess electricity, farmers can reduce their reliance on the grid or diesel generators, thereby lowering energy costs over time.
2. Energy independence: The system provides a reliable, sustainable source of power, reducing dependence on external energy suppliers and increasing the farm’s energy self-sufficiency.
3. Environmental sustainability: Solar energy is a clean, renewable energy that helps reduce greenhouse gas emissions and environmental impact compared to traditional energy sources.
4. Reliable water supply: Even when there is insufficient sunshine or at night, the system can ensure continuous power supply for irrigation, helping to maintain continuous water supply for crops.
5. Long-term investment: Installing a photovoltaic energy storage system can be a long-term investment, providing a reliable and sustainable source of energy for years to come, with the potential for good return on investment.
6. Government incentives: In many areas, there are government incentives, tax credits or rebates for installing renewable energy systems, which can further offset the initial investment cost.

Overall, photovoltaic energy storage systems for farm irrigation offer a range of advantages, including cost savings, energy independence, environmental sustainability and long-term reliability, making them an attractive option for modern agricultural operations.

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