Application Scenario: Gansu Province Wheat Yield Improvement Project in China, addressing challenges of arid climate and high sediment content in Yellow River water in Northwest China. Yellow River water is channeled into sedimentation ponds via irrigation canals, with a flow rate of 180 cubic meters per hour.
Technical Solution:
Primary Filtration: Automatic backwashing sand media filter (model DMF4816-3) with an 8-inch main pipe, designed to remove fine organic matter and sludge from the water.
Secondary Filtration: Automatic backwashing disc filter (model DLLF4-5) with a 120-mesh precision to prevent particles larger than 120 mesh from entering the field pipeline system.
Case Impact:
Fertilizer integration via fertilizer tanks with mixers and injection pumps.
IoT-controlled field solenoid valves enable rotational irrigation.
Skid-mounted filters are delivered pre-assembled, minimizing on-site installation work.
Filters feature pressure differential/time-based automatic backwashing, ensuring consistent performance.
Through optimized irrigation design, average yield per mu (Chinese acre) increased by over 30%.
Application Scenario: Hebei Province Potato Cultivation Project in China, located in the arid northern region with limited rainfall. During summer, irrigation water from reservoirs contains high microbial content, with a flow rate of 120 cubic meters per hour.
Technical Solution:
IoT-Controlled Automatic Fertilization System: Integrates fertilization and field solenoid valve control.
Primary Filtration: Automatic backwashing sand media filter (model DMF4816-2) with a 6-inch main pipe, designed to remove fine organic matter and sludge from water.
Secondary Filtration: Automatic backwashing disc filter (model DLLF4-4) with 120-mesh precision to block particles larger than 120 mesh from entering the field pipeline system.
Case Impact:
Skid-mounted filters are delivered pre-assembled, eliminating on-site assembly and reducing labor requirements.
Filters feature pressure differential/time-based automatic backwashing for sustained efficiency.
Optimized irrigation design resulted in an average yield increase of over 30% per mu (Chinese acre).
Application Scenario: Inner Mongolia Corn Cultivation Project in China, situated in the arid northern region with limited rainfall. During summer, irrigation water (from groundwater and canal sources) is collected in a reservoir, with a flow rate of 300 cubic meters per hour.
Technical Solution:
IoT-Controlled Automatic Fertilization System: Manages fertilization and controls field solenoid valves.
Primary Filtration: Automatic backwashing sand media filter (model DMF3616-8) with eight 36-inch filtration units and an 8-inch main pipe, designed to remove fine organic matter and sludge from water.
Secondary Filtration: Automatic backwashing disc filter (model DLLF4-8) with 120-mesh precision to block particles larger than 120 mesh from entering the field pipeline system.
Case Impact:
Skid-mounted filters are delivered pre-assembled, eliminating on-site assembly and reducing labor.
Filters feature pressure differential/time-based automatic backwashing for continuous operation efficiency.
Optimized irrigation design achieved an average yield increase of over 30% per mu (Chinese acre).
Application Scenario: China Xinjiang Wheat Cultivation Project. Located in western China, the region experiences high summer temperatures and arid conditions, with irrigation water containing significant amounts of leaves and animal hair. Snowmelt water from mountains is collected in reservoirs, with an irrigation flow rate of 600 cubic meters per hour.
Technical Solution:
Fertilization via pressure differential fertilizer tanks, with manual control valves in the fields.
Primary filtration system: Three hydraulic automatic backflush screen filters (capacity: 200 cubic meters per hour each) installed in parallel.
Each filter incorporates dual-stage filtration (coarse mesh + fine mesh) with a 120-mesh precision.
Filter controllers are battery-powered and feature automatic backflush triggered by pressure differential or time intervals, enabling unmanned operation.
Case Results:
Skid-mounted filter units were delivered pre-assembled, minimizing on-site installation efforts.
All filters include automatic pressure differential/time-based backflush functionality.
Through optimized irrigation system design, average yield per mu (Chinese acre) increased by over 30%.
Application Scenario: China Sichuan Citrus Cultivation Project. Located in southwestern China, the region experiences turbid water with high organic content during summer rainy seasons. Pond water is used for irrigation, with a flow rate of 130 cubic meters per hour.
Technical Solution:
IoT-controlled automatic fertilizer applicator for fertilization and management of solenoid valves in the fields.
Primary filtration: An automatic backflush sand media filter (DMF4816-2) with two 48" sand filter units and a 6-inch main pipe, designed to remove fine organic matter and sludge.
Secondary filtration: An automatic backflush disc filter (DLLF4-3) with 120-mesh filtration precision to prevent impurities larger than 120 mesh from entering the field pipeline system.
Case Results:
Skid-mounted filter units were delivered pre-assembled, minimizing on-site installation efforts.
All filters feature automatic pressure differential/time-based backflush functionality.
Through optimized irrigation system design, average yield per mu (Chinese acre) increased by over 30%.
Application Scenario: China Gansu Tomato Cultivation Project. Located in northwestern China, the region is arid with low rainfall and features water containing high sediment content. Reservoir water is used for irrigation, with a flow rate of 80 cubic meters per hour.
Technical Solution:
IoT-controlled automatic fertilizer applicator for fertilization and management of solenoid valves in greenhouses.
Primary filtration: An automatic backflush sand media filter (DMF3616-2) with two 36" sand filter units and a 6-inch main pipe, designed to remove fine organic matter and sludge.
Secondary filtration: An automatic backflush disc filter (DLLF4-3) with 120-mesh filtration precision to prevent impurities larger than 120 mesh from entering the field pipeline system.
Case Results:
Skid-mounted filter units were delivered pre-assembled, minimizing on-site installation efforts.
All filters feature automatic pressure differential/time-based backflush functionality.
Through optimized irrigation system design, average yield per mu (Chinese acre) increased by over 30%.
Application Scenario: China Shandong Cherry Cultivation Project. Located in northern China, the region experiences turbid water with high organic content during summer rainy seasons. Pond water is used for irrigation, with a flow rate of 130 cubic meters per hour.
Technical Solution:
IoT-controlled automatic fertilizer applicator for fertilization and management of solenoid valves in the fields.
Primary filtration: An automatic backflush sand media filter (DMF4816-2) with two 48" sand filter units and a 6-inch main pipe, designed to remove fine organic matter and sludge.
Secondary filtration: An automatic backflush disc filter (DLLF4-3) with 120-mesh filtration precision to prevent impurities larger than 120 mesh from entering the field pipeline system.
Case Results:
Skid-mounted filter units were delivered pre-assembled, minimizing on-site installation efforts.
All filters feature automatic pressure differential/time-based backflush functionality.
Through optimized irrigation system design, average yield per mu (Chinese acre) increased by over 30%.
Application Scenario: China Yunnan Blueberry Substrate Cultivation Project. Located in southwestern China, the region experiences turbid water with high organic content during summer rainy seasons. Reservoir water is used for irrigation, with a flow rate of 80 cubic meters per hour.
Technical Solution:
IoT-controlled automatic fertilizer applicator for fertilization and management of solenoid valves in the fields.
Primary filtration: An automatic backflush sand media filter (DMF3616-2) with two 36" sand filter units and a 4-inch main pipe, designed to remove fine organic matter and sludge.
Secondary filtration: An automatic backflush disc filter (DLLF3-3) with 120-mesh filtration precision to prevent impurities larger than 120 mesh from clogging drippers.
Case Results:
Skid-mounted filter units were delivered pre-assembled, minimizing on-site installation efforts.
All filters feature automatic pressure differential/time-based backflush functionality.
Through optimized irrigation system design, average yield per mu (Chinese acre) increased by over 30%.
Application Scenario: China Yunnan Blueberry Substrate Cultivation Project. Located in southwestern China, the region experiences turbid water with high organic content during summer rainy seasons. Reservoir water is used for irrigation, with a flow rate of 120 cubic meters per hour.
Technical Solution:
IoT-controlled automatic fertilizer applicator for fertilization and management of solenoid valves in the fields.
Primary filtration: An automatic backflush sand media filter (DMF4816-2) with two 48" sand filter units and a 4-inch main pipe, designed to remove fine organic matter and sludge.
Secondary filtration: An automatic backflush disc filter (DLLF3-6) with 120-mesh filtration precision to prevent impurities larger than 120 mesh from clogging drippers.
Case Results:
Skid-mounted filter units were delivered pre-assembled, minimizing on-site installation efforts.
All filters feature automatic pressure differential/time-based backflush functionality.
Through optimized irrigation system design, average yield per mu (Chinese acre) increased by over 30%.
Application Scenario: China Sichuan Citrus Cultivation Project. Located in southwestern China, the region experiences turbid water with high organic content during summer rainy seasons. Pond water is used for irrigation, with a flow rate of 160 cubic meters per hour.
Technical Solution:
IoT-controlled automatic fertilizer applicator for fertilization and management of solenoid valves in the fields.
Primary filtration: An automatic backflush sand media filter (DMF4816-3) with three 48" sand filter units and a 4-inch main pipe, designed to remove fine organic matter and sludge.
Secondary filtration: An automatic backflush disc filter (DLLF4-5) with 120-mesh filtration precision to prevent impurities larger than 120 mesh from clogging drippers.
Case Results:
Skid-mounted filter units were delivered pre-assembled, minimizing on-site installation efforts.
All filters feature automatic pressure differential/time-based backflush functionality.
Through optimized irrigation system design, average yield per mu (Chinese acre) increased by over 30%.
Application Scenario: China Guangxi Sugarcane Cultivation Project. Located in southwestern China, the region experiences turbid water with high organic content during summer rainy seasons. Karst cave water is used for irrigation, with a flow rate of 80 cubic meters per hour.
Technical Solution:
IoT-controlled automatic fertilizer applicator for fertilization and management of solenoid valves in the fields.
Primary filtration: An automatic backflush sand media filter (DMF3616-2) with two 36" sand filter units and a 4-inch main pipe, designed to remove fine organic matter and sludge.
Secondary filtration: An automatic backflush disc filter (DLLF3-3) with 120-mesh filtration precision to prevent impurities larger than 120 mesh from clogging drippers.
Case Results:
Skid-mounted filter units were delivered pre-assembled, minimizing on-site installation efforts.
All filters feature automatic pressure differential/time-based backflush functionality.
Through optimized irrigation system design, average yield per mu (Chinese acre) increased by over 30%.
Application Scenario: China Hebei Wheat Cultivation Project. Located in northern China, the region utilizes groundwater with high sand content for irrigation, with a flow rate of 100 cubic meters per hour.
Technical Solution:
Fertilization via pressure differential fertilizer tanks, with manual control valves in the fields.
Primary filtration: A 4" centrifugal filter with a 4-inch main pipe, designed to remove sand particles larger than 300 microns through centrifugal force.
Secondary filtration: An automatic backflush disc filter (DLLF3-4) with 120-mesh filtration precision to prevent sand particles larger than 120 mesh from clogging drippers.
Case Results:
Skid-mounted filter units were delivered pre-assembled, minimizing on-site installation efforts.
All filters feature automatic pressure differential/time-based backflush functionality.
Through optimized irrigation system design, average yield per mu (Chinese acre) increased by over 30%.
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