💡 IRRICAD transforms irrigation design from a manual, error-prone task into a streamlined, data-driven process that maximizes crop yield while minimizing resource consumption.
By enabling more precise designs, IRRICAD plays a vital role in global water conservation. Efficiently designed pressurized systems can reduce water waste by 20% to 76% compared to traditional flood irrigation methods. This is critical for smallholders and large-scale farms alike in regions facing increasing water scarcity.
IRRICAD is a globally recognized computer-aided design (CAD) software package specifically engineered for the irrigation industry. Developed by Lincoln Agritech in New Zealand, it integrates advanced hydraulic analysis with graphical design tools to streamline the creation of complex irrigation systems. Unlike general CAD software, IRRICAD is "irrigation-aware," meaning it understands the hydraulic relationships between components like pumps, pipes, valves, and emitters. Core Capabilities of IRRICAD irricad
Includes comprehensive databases from major manufacturers (e.g., Netafim, Nelson, Rain Bird), allowing designers to select real-world components with pre-defined hydraulic properties.
Managing large-scale agricultural or turf applications. 💡 IRRICAD transforms irrigation design from a manual,
Designers can use the software to compare different pipe materials and layouts to find the most cost-effective solution. This includes calculating the "Present Value" of operating costs (energy for pumping) versus initial capital expenditure. Why Professionals Choose IRRICAD
One of IRRICAD's standout features is its ability to handle topographic data. By importing GPS coordinates or contour maps, the software adjusts hydraulic calculations to account for gravity, ensuring that uphill emitters receive adequate pressure while downhill ones aren't over-pressurized. 3. Economic Optimization This is critical for smallholders and large-scale farms
The software is designed to handle everything from small landscape projects to massive agricultural developments. Its primary function is to automate the sizing and layout of pipe networks while ensuring the system operates within specific pressure and flow constraints.
Optimizing laterals and submains for uniform water distribution.
