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$50000
Inventory: 10
Water-Fertilizer Integrated Machine
Jiangsu Huayuan Water-Saving Co., Ltd.
Membership category
General Supplier
Seller category
Machinery
1. Basic Concept & Working Principle
The water-fertilizer integrated machine mixes soluble solid or liquid fertilizers with irrigation water via a pressure system (or natural head) to form a water-fertilizer solution. This solution is then delivered evenly, regularly and quantitatively to the crop root zone through a piping system. Its core components include a water pump, fertilizer tank, mixer, irrigation pipes, and an intelligent control system.
2. Main Functions & Features
- Precise Fertilization: Automatically adjusts the water-fertilizer ratio and application rate based on crop needs, soil nutrient content, and growth stages, ensuring efficient nutrient utilization.
- Water-Saving & High-Efficiency: Adopts drip or sprinkler irrigation technology to reduce water evaporation and runoff, significantly improving water resource utilization.
- Intelligent Control: Supports remote operation (e.g., via mobile APP or computer) to realize automated management and reduce labor costs.
- High Mobility: Some models are equipped with mobility functions, allowing flexible transfer between different farmlands to improve equipment utilization.
3. Advantages & Application Scenarios
- Increased Yield & Quality: Promotes healthy crop growth and enhances yield and quality through precise supply of water and nutrients.
- Cost Savings: Reduces the usage of chemical fertilizers and water resources, lowering agricultural production costs.
- Environmental Sustainability: Minimizes fertilizer pollution to soil and water sources, aligning with the development concept of green agriculture.
- Wide Applicability: Suitable for multiple planting scenarios such as protected agriculture, orchards, and field crops.
4. Technological Development Trend
With the advancement of agricultural modernization, water-fertilizer integrated machines are evolving toward higher intelligence and greater precision. For example, real-time monitoring of soil and crop conditions via sensors enables dynamic adjustment of water-fertilizer schemes, further optimizing resource utilization efficiency.