noun the quality of being porous, or full of tiny holes that allow liquids or gases to pass through
Porosity plays a role in the movement of contaminants through soil and groundwater, influencing the potential for pollution and remediation efforts.
Porosity is a consideration in the design of structures such as concrete, where it can affect durability and resistance to weathering.
Porosity is a measure of how much space there is within a rock or soil for fluids to flow through. It is an important factor in determining the permeability of a material.
Porosity refers to the presence of void spaces within a material, which can affect its mechanical properties such as strength and stiffness.
Porosity is used by writers in the context of describing the permeability or absorbency of materials or substances, such as in describing the porosity of soil in a gardening article.
Geologists use porosity to describe the amount of empty space in rocks or soil, which is important for understanding groundwater flow and oil and gas reservoirs.
Chemical engineers use porosity to determine the effectiveness of filters and membranes in separating different substances based on their size and porosity.
Materials scientists study the porosity of materials to understand their properties, such as thermal insulation, sound absorption, or drug delivery in pharmaceuticals.
Civil engineers consider the porosity of materials in construction projects to assess drainage, erosion control, and the stability of foundations.
Environmental scientists use porosity to evaluate the capacity of soil and rock to absorb pollutants or contaminants, affecting groundwater quality and ecosystem health.