PTSA Soil/Water Model Tank
創新系統
The Soil/Water Model Tank "PTSA" is a laboratory scale unit designed to study the most common surface irrigation systems, as well as to investigate the surface and sub-surface effects of applying water.
化验室
相關新聞
一般說明
The Soil/Water Model Tank "PTSA" is a laboratory scale unit designed to study the most common surface irrigation systems, as well as to investigate the surface and sub-surface effects of applying water.
The "PTSA" unit is mounted on a movable bench consisting of a metallic frame and panels made of painted steel. It includes wheels to facilitate its mobility.
It has a narrow rectangular tank to be partially filled with different kinds of soils/sand (not included). Its frame is made of aluminum and the rear and front walls are made of glass so that water movements can be visualized. The front wall of the tank includes a grid to facilitate the measurement of water penetration rate in the soil.
It is a self-contained unit and it includes a water tank from which a pump impels water passing through a flow meter to measure the flow. The water circulates through a pressure regulator and a filter and the flow is controlled by a regulation valve. The water outlet in the rectangular tank can be either by flood or drip system to demonstrate the different types of surface irrigation. The irrigation system is manually modified to allow the two types of surface irrigation.
The unit allows to change and to remove easily and quickly the soil samples using the rear lateral plate made of aluminum. There is an overflow system to remove surface water.
練習和指導練習
手册中包含的指导实践练习
- Study and visualization of drainage systems.
- Visualization of the surface irrigation systems.
- Study and understanding of surface and sub-surface effects of surface water application.
- Study of the filtration rate.
- Visualization of the effect of crusting on infiltration.
- Visualization of the effect of soil particle size on infiltration.
与该单位进行更多实际操作
- Study of infiltration and surface run-off.
- Study and demonstration of optimum irrigation application rates to maximize infiltration and minimize surface run-off.