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API 60 : 1995

Withdrawn

Withdrawn

A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.

RECOMMENDED PRACTICES FOR TESTING HIGH-STRENGTH PROPPANTS USED IN HYDRAULIC FRACTURING OPERATIONS

Withdrawn date

13-03-2024

Published date

01-01-1995

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1 Scope
1.1 Scope
1.2 Objective
1.3 Test Procedures
2 References
2.1 Standards
2.2 Other references
3 Recommended Proppant Sampling Procedure
3.1 Description
3.2 Equipment
3.3 Recommended Number of Samples
3.4 Sampling (Bulk Material)
3.5 Sampling (Sacked Material)
4 Recommended Samples Handling and Storage
4.1 Sample Reduction (Sacked Material)
4.2 Sample Splitting
4.3 Sample Retention and Storage
5 Recommended Proppant Sizes
5.1 Sieve Analysis
5.2 Recommended Proppant Size
6 Proppant Sphericity and Roundness
6.1 General
6.2 Sphericity
6.3 Roundness
6.4 Recommended Sphericity and Roundness
6.5 Alternate Method for Determining Average
      Sphericity and Roundness
7 Acid Solubility Considerations
7.1 General
7.2 Acid Solubility Test Cautions
8 Recommended Proppant Crush Resistance Test
8.1 General
8.2 Equipment and Materials
8.3 Recommended Test Procedure
8.4 Suggested maximum fines
8.5 Variability of crush resistance test results
9 Recommended Procedures for Determining
      Proppant Bulk Density, Apparent Density and
      Absolute Density
9.1 General
9.2 Bulk Density
9.3 Apparent Density (Measured in Kerosine or Water)
9.4 Absolute Density
Appendix A - Derivation of Equations 8 and 9
Figures
1 - Example box sampling device
2 - Example Sample Reducer Equipment
3 - Example Sample Splitter Equipment
4 - Example of Testing Sieve Shaker Equipment
    and Nest of Six U.S.A. Sieves Plus Pan
5 - Chart for Visual Estimates of Sphericity
    and Roundness
6 - Example Test Cell, Proppant Crush Resistance
    Test
7 - Example apparatus for measuring proppant
    absolute density
Tables
1 - Recognized high-strength proppant sizes
2 - Suggested Fines Limit According to
    Proppant Size for Stated Stress Levels
3 - Equivalent Load on Cell Versus Stress on
    Proppant Pack

Describes procedures and equipment that can be used in testing and evaluating high-strength proppants, i.e. proppants stronger than silica sand. Procedures are presented for proppant sampling, samples handling, storage, and retention; sieve analysis of proppant samples; average particle sphericity and roundness; proppant crush resistance; and density of proppant materials.

DocumentType
Standard
PublisherName
American Petroleum Institute
Status
Withdrawn

API 19C : 2008 : R2016 MEASUREMENT OF PROPERTIES OF PROPPANTS USED IN HYDRAULIC FRACTURING AND GRAVEL-PACKING OPERATIONS
ISO 13503-2:2006 Petroleum and natural gas industries — Completion fluids and materials — Part 2: Measurement of properties of proppants used in hydraulic fracturing and gravel-packing operations
UNI EN ISO 13503-2 : 2010 PETROLEUM AND NATURAL GAS INDUSTRIES - COMPLETION FLUIDS AND MATERIALS - PART 2: MEASUREMENT OF PROPERTIES OF PROPPANTS USED IN HYDRAULIC FRACTURING AND GRAVEL-PACKING OPERATIONS
API 19C:2008 MEASUREMENT OF PROPERTIES OF PROPPANTS USED IN HYDRAULIC FRACTURING AND GRAVEL-PACKING OPERATIONS
BS EN ISO 13503-2 : 2006 PETROLEUM AND NATURAL GAS INDUSTRIES - COMPLETION FLUIDS AND MATERIALS - PART 2: MEASUREMENT OF PROPERTIES OF PROPPANTS USED IN HYDRAULIC FRACTURING AND GRAVEL-PACKING OPERATIONS

API 56 : 1995 RECOMMENDED PRACTICES FOR TESTING SAND USED IN HYDRAULIC FRACTURING OPERATIONS
ASTM E 11 : 2017 : REDLINE Standard Specification for Woven Wire Test Sieve Cloth and Test Sieves

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