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HS160-10 Boor-modderpomp

Drilling Mud Pump

Hans 160/10 modderpomp is een lichte horizontale triplex enkelwerkende zuigerpomp met enkele actie, het heeft veel goede eigenschappen zoals klein formaat, lichtgewicht, lange levensduur, gemakkelijk te vervoeren, goede prestaties en het gebruik van veel standaard of universele industriële onderdelen. is geschikt voor geologische prospectie. geologische engineering boren binnen 1000 meter in verschillende zoals spoorwegen, waterbehoud, metallurgie, constructie en geologie.

PERFORMANCE

The Hans 160/10 Mud Pump is a versatile and efficient piece of equipment designed for a range of drilling and pumping applications, particularly in geological exploration and engineering drilling. Here's a summary of its key performance characteristics and features:

  1. Light Horizontal Triplex Design: The triplex configuration, with three cylinders, provides reliable and efficient pumping performance. Its horizontal orientation ensures stability during operation.

  2. Single Action Reciprocating Piston Pump: The single-action reciprocating piston design simplifies operation and maintenance while contributing to the pump's durability and long service life.

  3. Small Size and Lightweight: The pump's compact size and lightweight construction make it highly portable and easy to transport, enhancing its mobility for fieldwork in various locations.

  4. Long Service Life: Designed for durability, the pump is built to withstand the demands of drilling operations, ensuring a long service life with minimal downtime for maintenance.

  5. Versatile Compatibility: The pump's compatibility with standard or universal industrial parts simplifies maintenance and replacement of components, reducing operational costs and downtime.

  6. Good Performance: The pump's efficient pumping capabilities ensure reliable fluid circulation during drilling operations, essential for maintaining borehole stability and collecting geological data.

  7. Suitability for Geological Prospection: The pump is well-suited for geological prospection, allowing geologists to collect core samples and assess subsurface conditions accurately.

  8. Wide Range of Applications: The pump's versatility enables its use in various industries and drilling projects, including railway, water conservancy, metallurgy, construction, and geological exploration.

  9. Drilling Depth: Capable of supporting drilling depths of up to 1000 meters, making it suitable for deep drilling projects and assessments.

  10. Efficient Fluid Circulation: In drilling operations, maintaining consistent fluid circulation is crucial for cooling the drill bit, transporting cuttings, and preventing borehole collapse. The pump's performance contributes to efficient circulation.

  11. Ease of Operation: Designed to be user-friendly, the pump allows operators to control and monitor performance easily, contributing to efficient and safe drilling operations.

  12. Environmental Considerations: Efficient fluid circulation helps minimize environmental impact by reducing the risk of borehole contamination during drilling operations.

The Hans 160/10 Mud Pump's combination of portability, durability, and compatibility with standard industrial parts makes it a valuable tool for professionals and projects across various industries. Its ability to perform efficiently in different geological conditions and drilling scenarios enhances its practicality and value in a wide range of applications. Specific performance metrics and capabilities may vary based on the exact model and configuration of the pump.

APPLICATION

The Hans Mud Pump, with its compact and efficient design, is suitable for a wide range of applications, particularly in geological exploration, geological engineering drilling, and various industrial sectors. Here are specific applications where the pump can be effectively utilized:

  1. Geological Prospection:

    • The pump plays a crucial role in geological prospection activities, allowing geologists to collect core samples and assess subsurface conditions accurately. It helps in identifying valuable mineral deposits, rock formations, and geological structures.

  2. Geological Engineering Drilling:

    • In geological engineering projects, the pump is used to circulate drilling fluids during drilling operations, ensuring stable borehole conditions, collecting geological data, and minimizing borehole collapse risks.

  3. Railway Construction:

    • The pump can be employed in railway construction projects for drilling boreholes necessary for assessing the ground conditions, soil stability, and foundation requirements.

  4. Water Conservancy Projects:

    • Water conservancy projects often involve drilling for site assessments and groundwater studies. The pump aids in collecting samples and maintaining borehole stability in such projects.

  5. Metallurgy Industry:

    • The metallurgy industry may use the pump for drilling boreholes to explore mineral resources, assess geological conditions, and gather samples for mineral analysis.

  6. Construction Industry:

    • In the construction sector, the pump is valuable for drilling foundation boreholes, assessing soil quality, and determining appropriate foundation designs for buildings and infrastructure projects.

  7. Geological Surveys:

    • Geological surveys conducted for research or environmental assessments benefit from the pump's efficient drilling fluid circulation and core sample collection capabilities.

  8. Field Exploration:

    • Geologists and exploration teams rely on the pump to collect core samples in remote or challenging terrains during field exploration activities.

  9. Mineral Exploration:

    • The pump is instrumental in mineral exploration projects, helping geologists and mining professionals assess ore deposits and geological conditions.

  10. Environmental Studies:

    • The pump can be used in environmental studies to collect soil and sediment samples for pollution assessments, contaminant tracking, and groundwater monitoring.

  11. Oil and Gas Exploration:

    • While not explicitly mentioned, the pump can also have applications in drilling operations related to oil and gas exploration, particularly in assessing subsurface formations and drilling boreholes.

  12. Research and Development:

    • In research and development initiatives, the pump can support experimental drilling and geological sampling for academic or scientific purposes.

The Hans Mud Pump's portability, durability, and compatibility with standard industrial parts make it a versatile tool for professionals and projects across various industries. Its ability to perform efficiently in different geological conditions and drilling scenarios enhances its practicality and value in a wide range of applications. Specific applications should be determined based on project requirements and geological or environmental conditions.

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FAQ

Q: Can you take a core sample of the earth?

Core samples are cylindrical pieces drilled from soil and rock. These samples allow scientists to study the properties and geological history of the Earth — or the moon or other planets.

Q: Do geologists drill holes?

Geologists drill holes into the rock underground for several reasons. Probably the greatest number of wells drilled are for water and these are the ones most people are familiar with. But, usually very little rock information can be derived from them because they are either too shallow or barely drilled into bedrock.

Q: Can geophysical method replace drilling?

Geotechnical geophysics is not a substitute for boring or testing, but it is often a very cost-effective and reliable means of imaging the subsurface between and below boreholes and for determining the in situ bulk properties of soil and rock.

Q: What is core drilling mineral exploration?

Core drilling produces cores of sub-surface material and is the most commonly used method of obtaining information about the presence of minerals or precious metals, as well as rock formations. The core drilling method gives the geologist the opportunity to analyze the sample by eye as well as by more advanced methods.

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