A wellpoint dewatering system is most efficient in what type of soil?

Prepare for the A-5 Excavating, Grading and Oil Surfacing Test with flashcards and multiple choice questions. Succeed with detailed explanations and hints for each question. Ensure your success in the exam!

A wellpoint dewatering system is most efficient in sandy soils because these types of soils have larger particle sizes and greater permeability, allowing water to flow more easily through them. This characteristic enables the wellpoint system to effectively lower the water table by creating a vacuum that draws groundwater towards the wellpoints, facilitating quicker and more efficient dewatering.

Sandy soils have high drainage capacity, which means that when a wellpoint system is employed, it can rapidly remove excess water without encountering significant resistance. This makes it ideal for construction activities where a dry work environment is necessary, ensuring stability and safety.

In contrast, other soil types like clay and silt typically have finer particles that limit water movement, making dewatering less effective. Loam, a mixture of sand, silt, and clay, can also complicate the dewatering process due to its varying drainage capabilities. Thus, sandy soil stands out as the optimal choice for the efficiency of a wellpoint dewatering system.

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