Precision Surveys for Informed Water Resource Management
Utilizing advanced satellite technology and geophysical techniques, AquaSub Tech delivers accurate and actionable insights to identify optimal drilling locations and ensure successful borehole projects.
We employ two survey methods that significantly enhance our ability to locate underground water. Our primary approach is satellite surveying, an innovative technique that provides valuable insights into subsurface conditions. This method utilises satellite imagery and remote sensing technologies to collect data about both the Earth's surface and its subsurface features. To further enrich the findings from our satellite surveys, we utilise the Precision Geo-Water Technology (PQWT) machine to confirm the locations identified in our desktop studies and to measure groundwater depths. By integrating these two sources of information, we can achieve a more comprehensive understanding of geological formations, groundwater resources, and environmental conditions, thereby maximizing our potential for discovering underground water.
Key Advantages of Borehole Satellite Surveys
Higher Accuracy and Precision
Satellite imagery provides accurate spatial data with a precision level often unattainable through traditional surveying methods. We utilize Geographic Information Systems (GIS) tools to combine satellite and borehole data, offering a multidimensional view of the subsurface that enhances geological interpretation. This integration supports the correlation of surface features with subsurface conditions, resulting in more refined geological models.
High Spatial Resolution and Coverage
Satellite imagery provides extensive coverage with high spatial resolution, enabling the analysis of large areas in a fraction of the time needed by traditional methods. This wide-ranging capability facilitates the identification of potential borehole locations based on surface characteristics.
Enhanced Decision-Making
Our use of advanced technology streamlines the collection, analysis, and visualisation of geospatial data, delivering essential insights that enhance our customers' decision-making processes. This approach allows us to pinpoint areas with low water yields, helping clients avoid the frustration of drilling dry holes. Conversely, we also identify locations with high potential yields, instilling greater confidence in the chosen drilling sites.
Survey Process
Step 1: Coordinates: We will need you to provide the GPS coordinates of the property which we use to obtain satellite imagery required for step 2. If the GPS coordinates for the property are unavailable, we will conduct a site visit to obtain them. Depending on the site, we may also use drones to gather the coordinates.
Step 2: Desktop Study: Using Geographic Information Systems (GIS), we will analyse satellite imagery of the specified area to examine its geological and topographical features. This analysis will help identify potential drilling sites, and we will share our findings with you to inform your decision and reduce the risk of unsuccessful drilling.
Step 3: Field study: Once we have identified potential drilling zones from our desktop study, we will conduct a site visit and employ the Precision Geo-Water Technology (PQWT) machine which is a highly sophisticated device designed for the detection and evaluation of groundwater resources. Utilising advanced electromagnetic methods, the PQWT can identify underground water sources, assess their quality, and determine the best locations for drilling boreholes.
Step 4: Report: We will then prepare a Geological Survey Report that identifies areas with very high, high, moderate, and low potential for underground water. Additionally, the report will include recommendations for optimal drilling depths.
“say goodbye to guess work and dry holes”