A domestic company invested in a farm in Botswana, Africa, where water resources were scarce, leading to tight water supply for both production and daily living. In an attempt to solve the water shortage, they hired local groundwater exploration personnel to carry out measurements and drilling. However, several wells drilled failed to find water.
Later, the company owner heard about Puqi Research Institute's development and production of the GT500A Natural Electric Field Exploration Instrument, which has been widely used and highly praised for water finding applications. The owner decided to send someone to China to purchase the device and receive on-site training in its use. The plan was to bring the instrument back to Africa and conduct their own water exploration.
Upon returning to Botswana, they immediately began work. After several days of measurement, they sent the results back to the technical team at Puchi Research Institute for analysis. However, after several unsuccessful attempts to locate a viable water source, the client started to lose confidence in the device's effectiveness. They began questioning its ability to provide reliable results.
Puqi's technical team strengthened communication with the client, offering guidance on measurement techniques and troubleshooting. Due to the lack of local geological data, rock formation information, and the team's absence from the site, the analysis was based solely on the available measurement data. This meant the ccuracy of the data provided by the client was critical.
After further guidance and analysis, a promising water source location was identified. The measurements showed a clear, consistent pattern in the curve graph at the 13th point. Most frequency curves bent downward, forming a regular V-shape structure, indicating a change in underground strata and rock layers. This suggested suitable conditions for groundwater storage and the presence of a water-bearing structure. A comprehensive analysis of the profile indicated that there was a water-bearing layer between 120-150 meters and another between 200-270 meters, with the latter expected to contain a larger volume of water.
After conducting a field verification, the results were consistent with the analysis, and the location was confirmed at the 13th point. A well with a design depth of 300 meters was planned. Upon starting the drilling, real-time updates were sent to the client.
Drilling Results:No water was found above 140 meters.Water was encountered starting at 148 meters and continued to 150 meters, with a small water-bearing layer producing about 3-4 cubic meters per hour.The work was paused overnight and resumed the following day.By 200 meters, the water volume increased, and the final drilling reached 250 meters, with a water flow of 9-10 cubic meters per hour.The client was extremely satisfied, as the water shortage problem was completely solved. In celebration, they set off fireworks and expressed their gratitude to the "land god" for the water.
This measurement and analysis confirmed the accuracy of the Puchi Natural Electric Field Exploration Instrument in water finding. The results closely matched the drilling outcomes, once again proving the instrument's powerful functionality and precision. The client, while thankful to the land god, expressed their deep appreciation for both Puchi's technology and the unwavering support from Puchi's technical team.
