Frack sand is a high-purity natural silica sand used as a proppant in oil and gas hydraulic fracturing operations. It is processed to achieve uniform particle size, high sphericity, and exceptional crush strength, enabling it to withstand high downhole pressures. When injected into fractures along with fracturing fluids, it keeps the fractures open, allowing hydrocarbons to flow efficiently. Its consistent quality ensures improved well productivity and long-term performance in demanding reservoir conditions.
Oil & Gas
Why Frack Sand is the preferred choice for oil & gas formulations
Comprehensive range of Frack Sand grades for diverse industrial applications
Coarse frack sand (12/20 mesh) for hydraulic fracturing requiring maximum fracture conductivity in lower-stress, shallow reservoirs where coarser proppant packs provide highest permeability for hydrocarbon flow.
Standard coarse frack sand (16/30 mesh) providing high fracture conductivity and good crush resistance for moderate-depth oil and gas well hydraulic fracturing operations.
Most widely used frack sand grade (20/40 mesh) providing the optimal balance of fracture conductivity, crush resistance, and pack permeability for most reservoir conditions.
Medium frack sand (30/50 mesh) for higher-closure-stress reservoirs requiring better crush resistance with adequate fracture conductivity, suitable for deeper oil and gas formations.
Fine frack sand (40/70 mesh) for high-closure-stress wells and deep formations where fine proppant packs are required for adequate crush resistance while maintaining sufficient fracture conductivity.
Ultra-fine frack sand (70/140 mesh) for near-wellbore diversion, tail-in stages, and specialty fracturing applications in high-permeability formations or for improved proppant distribution in complex fracture networks.
Common questions about Frack Sand in oil & gas applications
Find detailed answers about specifications, applications, and technical details.
The most critical properties are: (1) crush resistance (k-value per API RP 19C) — resistance to breakage under closure stress; (2) sphericity and roundness (≥0.6 per Krumbein scale) — governs fracture conductivity; (3) particle size uniformity — governs pack porosity and permeability; (4) silica purity (>99% SiO₂) — ensures strength; and (5) turbidity (API solubility) — determines soluble impurity content.
20/40 mesh is the most widely used frack sand grade globally because it provides the optimal balance between fracture conductivity (larger particles create wider pore channels) and crush resistance. It is suitable for a broad range of reservoir depths and closure stresses, making it the default choice for most unconventional oil and gas hydraulic fracturing programs.
Closure stress increases with reservoir depth — approximately 0.7–1.0 psi per foot of depth. Shallow wells (<6,000 ft) can use coarser, lower-strength proppants (12/20, 16/30 mesh). Deep wells (>10,000 ft) experiencing high closure stress require finer, higher-strength proppants (30/50, 40/70 mesh) or ceramic proppants.
API RP 19C specifies standardised test procedures for: crush resistance (percent fines generated at specified stress), sphericity and roundness (Krumbein visual comparison), turbidity (suspended fines content in water), acid solubility, sieve analysis (particle size distribution), and bulk density. Compliance ensures consistent, comparable proppant quality across suppliers.
Frack sand is suitable for most low-to-moderate closure stress applications (typically below 8,000–10,000 psi). For high-closure-stress deep reservoirs (>10,000 psi), ceramic proppants (manufactured alumina or bauxite) provide higher crush resistance. However, improved frack sand processing has expanded application ranges, reducing ceramic proppant use in moderate-stress wells for cost savings.
Sphericity (how closely the grain resembles a sphere) and roundness (absence of sharp edges and corners) together determine how efficiently proppant grains pack in the fracture. Higher sphericity and roundness (≥0.6 per API) create more uniform packing with higher porosity and permeability, allowing greater hydrocarbon flow conductivity.
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