ERS groundwater surveys Wastewater, Topographical surveys, Deep tube well bores, Air compressor wash bores, dewatering bores, Soil testing bores, piling bores, Submersible pumps and motors, Industrial RO plants, and Waste water treatment plants are just a few of the water survey services provided by Geo-Service.
Due to excessive tube well pumping as well as other causes, the quality of the groundwater is declining in several areas of Punjab. A technique called an Electrical Resistivity Survey (ERS) is used to look into the possibility of fresh groundwater in an aquifer. Resistance to Electricity
In the mandates of the Pakistani city of Faisalabad, on the left side of the Jhang Branch Canal (JBC), a survey was conducted at nine spots down to a depth of 25 utilised metres.
Terrameter SAS 1000 IP, SP, ABEM, and Resistivity System were the instruments utilised for ERS. Computer-aided methods and software have been used to interpret the resistivity data that has been gathered.
A topographic survey identifies all property surface features and shows elevations and all- natural characteristics. This three-dimensional map of a property depicts all of its characteristics and enhancements, both natural and man-made. It displays their precise location, dimensions, height, and any elevation changes.
Topographic surveys, commonly referred to as contour surveys, could be needed for real estate deals, civil engineering designs, and building projects, including:
- Construction new
- Alterations to existing structures
- Utilitarian style
- Improvements to the design of roads or bridges
- Drainage or grading initiatives
Several local governments or organisations conduct topographic surveys to ascertain the current conditions and elevations of a place. Topographic surveys are used by architects and engineers, along with a boundary survey, to develop precise and suitable designs based on current conditions.
Deep Borewell: A deep borewell is one with a casing diameter of at least 6 inches and a depth of more than 30 metres below the surface of the ground. • Shallow Borewells: These are borewells with a depth of under 30 metres that typically analyse 6.
Deep bore wells are frequently used by hydrologists as monitoring wells to examine the impact of water extraction on the level of subsurface water.
Homes or communities in dry areas can receive water supplies through deep bore wells and specialized borehole pumps. Deep bore wells can be drilled hundreds of metres into subterranean groundwater in drought-stricken areas, deserts, or other places where there is no natural surface water supply to provide fresh water in the most adverse environments.
Cleaning the compressor of impurities is exactly what it sounds like—compressor washing. Hot water or hot water combined with a specialized detergent is used to dissolve, dislodge, and eliminate pollutants. Three main steps are involved:
chemical cleaning. Detergent is pumped into the system as the compressor runs, using specialized equipment like the Ro-Jet system.
Rinse with water. It is time to flush the compressor with water to get rid of all residues, including the cleaning agents. stabilize after the detergent has broken down the pollutants.
Run the engine. After cleaning is finished, the engine can be rapidly and simply dried by performing a heated dry-out run or by short dry-motoring it.
We can remove groundwater from an area using dewatering techniques. This is accomplished by building deep wells that provide excavation and a secure work area. We can build wells with a diameter of up to 250 mm. We employ best practices to lessen the likelihood of erosion and potential groundwater contamination.
The process of soil boring, also known as geotechnical boring, is used to examine and ascertain the soil conditions and composition at a location where construction is intended. Companies that perform soil boring, like Element, gather and expertly analyze soil samples to build the project’s knowledge base and guide structure design.
- Program Creation
- Geotechnical Assessment and Field Investigation
- Geotechnical Analysis and Site Investigation
- Land and Field Testing
- Testing for Construction Quality Control
- Expansive/collapsing Environmental Engineering Foundation and Pavement Design Analysis of Soil Settlement and Subsidence
- Testing of the Soil for Construction
- Field Permeability Testing: Special Foundations and Underpinnings
- Testing of Soils in the Lab
- Examinations of Marine Soil
- Load testing of plates
- Geographical surveys
- In-Situ Advanced Test
In metropolitan regions where less vibration is required during building, bored piles are common. Additionally, it is used in situations with restricted headroom, constant pile depth, and no danger of heaving.
The drilling phase and the construction phase are the two stages of building a bored pile. While the reinforced concrete is being put in place during the construction phase, the spoil is being removed during the drilling phase to create a hole that has the required diameter and depth. As a result, replacement heaps are another name for bored piles.
A submersible pump is a sealed, airtight motor that is tightly connected to the pump body. This kind of pump’s key benefit is that it doesn’t cause pump cavitation, which is a problem brought on by a large elevation difference between the pump and the fluid surface. Because the entire component is submerged in the fluid, submersible pumps never need priming.
Water pressure forces water into a submersible pump, “saving” a significant amount of the pump’s energy in the process. This makes submersible pumps particularly energy-efficient. Here are some examples of sites that Pump Man Social has worked at before and after.
An industrial RO (Reverse Osmosis) system is a manufacturing facility that uses reverse osmosis to clean polluted water. A range of pre-treatment techniques, including softening,
dechlorination, and antiscalant treatment, are necessary for the Industrial RO Water plant. Following pre-treatment, water is forced under intense pressure through a semipermeable membrane that traps all of the impurities while allowing only pure water to pass through. Energy levels are determined by the amount of salt and pollutants in the water.
Toto filters 1 cubic metre (6 kilowatts) of water, and an industrial Reverse Osmosis plant typically analyses 6 kilowatt hours of electricity.
We provide a wastewater recycling facility that is both economical and environmentally beneficial, and it is well-liked in international markets. Our industrial water recycling plant is widely used in many industries to effectively clean wastewater so that it can be used in additional applications. We have established ourselves as one of the leading suppliers of wastewater recycling systems.
For further details please contact us www.geo-studies.com