====== 8 m Steel Water Tower 5,000 L ====== AOFS Reference Implementation: 8 m Steel Water Tower with 5,000 L nylon tank. Designed for **simple, off-the-shelf steel construction** using locally available materials. This blueprint is **non-normative** and intended as a **practical, low-tech reference** for smallholder farms, NGOs, or off-grid installations. {{gallery>:reference_implementations:water_towers:water_tower_steel_5000}} ===== Functional Purpose ===== * Store 5,000 L of water in a tank elevated ~8 m for gravity-fed irrigation * Provide a higher-head water source for farms requiring greater pressure * Integrate optionally with AOFS Field Controllers for water level monitoring ===== Structural Concept ===== * 8 m high **simple steel frame tower** (e.g., prefabricated angles or trusses) * Supports a **standard 5,000 L nylon tank** (locally available) * Open-top tank for inspection and filling * Integrated Ladder for maintenance * Tank should be secured to the steel frame to resist tipping or lateral movement. * Consider temporary ballast or partial filling if the tank will be left empty for extended periods. * Site placement should minimize exposure to prevailing winds. * Designed to be **assembled with basic tools and local labor** ===== Hydraulic Layout ===== * Tank outlet feeds irrigation zones by gravity * **Minimum outlet height prevents complete emptying** to maintain tank stability * Isolation valve allows manual control * Overflow routed safely to drainage or secondary container * Optional integration with a small pump for secondary irrigation zones ===== Safety Considerations ===== * Keep steel frame connections tight and stable * Ladder and hatch should be used carefully * Ladder should be protected from being accessed by children * Ensure the frame is level and anchored for basic stability * Empty or near-empty tanks are more susceptible to wind forces; take care during strong wind events * Ensure tank straps, brackets, or anchoring to the frame are installed and checked regularly * Overflow and basic manual valve operation prevent flooding ===== Manual Operation Pathways ===== * Tank filling and irrigation can be done manually if electronics fail * Paper-based logs or measurement sheets supported ===== Controller Integration Points ===== * Optional water level sensor for Field Controller logging * AOFS control can read tank level for irrigation scheduling * Controller can enforce a minimum water level to ensure the tank remains gravity-stable against wind forces * Controller may connect to global weather forecasts when internet is available * High wind or storm warnings trigger alerts to the operator * Controller can temporarily fill or maintain tank level to prevent tipping during forecasted high winds * Irrigation may be suspended or modified to reduce risk to infrastructure * Manual bypass always available — irrigation continues even if electronics are offline ===== Versioning Note ===== * This design is **simple and locally adjustable**, so traditional versioning does not really apply * Builders may adapt frame dimensions, tank placement, or assembly method according to available steel, tools, and skills * Basic stability and functional operation should be maintained