ASTM F 3319 : 2020
Current
The latest, up-to-date edition.
Standard Specification for Selection and Application of Field-Installed Cryogenic Pipe and Equipment Insulation Systems on Liquefied Natural Gas (LNG)-Fueled Ships
Hardcopy , PDF
English
13-11-2020
Committee |
F 25
|
DocumentType |
Standard
|
Pages |
6
|
PublisherName |
American Society for Testing and Materials
|
Status |
Current
|
1.1This specification provides requirements for the design of thermal insulation systems for cryogenic piping and equipment for liquefied natural gas (LNG)-fueled ship applications. Methods and materials for installation, including jacketing and vapor retarders, are also detailed.
1.2The pipe and equipment operating temperature range addressed by this specification is from a temperature no warmer than –259°F (–162°C) to all temperatures colder.
1.3These types of piping systems typically have a small diameter: 3 in. (80 mm) NPS and smaller. However, this specification is not limited to pipes that small.
1.4This specification does not address the thermal insulation on either LNG fuel tanks or factory installed, pre-insulated pipe insulation assemblies.
1.5The design of removable/reusable insulation systems is not addressed in this specification.
1.6Structural design and physical strength of insulation systems are not addressed in this specification. However, the securement of jacketing systems is addressed.
1.7For above ambient pipe and equipment not carrying LNG, see Practice F683 for insulation practices.
1.8Insulation system weight is not a design criterion considered in this specification.
1.9The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.
1.10This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.
1.11This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.
ASTM C 165 : 2023 | Standard Test Method for Measuring Compressive Properties of Thermal Insulations |
ASTM F 683 : 2021 | Standard Practice for Selection and Application of Thermal Insulation for Piping and Machinery |
ASTM E 136 : 2024 | Standard Test Method for Assessing Combustibility of Materials Using a Vertical Tube Furnace at 750 °C |
ASTM D 696 : 2024 | Standard Test Method for Coefficient of Linear Thermal Expansion of Plastics Between −30°C and +30°C with a Vitreous Silica Dilatometer |
ASTM E 84 : 2023 : REV D | Standard Test Method for Surface Burning Characteristics of Building Materials |
ASTM C 168 : 2019 | Standard Terminology Relating to Thermal Insulation |
ASTM C 177 : 2019 | Standard Test Method for Steady-State Heat Flux Measurements and Thermal Transmission Properties by Means of the Guarded-Hot-Plate Apparatus |
ASTM C 1767 : 2019 | Standard Specification for Stainless Steel Jacketing for Insulation |
ASTM E 831 : 2019 | Standard Test Method for Linear Thermal Expansion of Solid Materials by Thermomechanical Analysis |
ASTM E 84 : 2023 : REV C | Standard Test Method for Surface Burning Characteristics of Building Materials |
ASTM E 228 : 2017 | Standard Test Method for Linear Thermal Expansion of Solid Materials With a Push-Rod Dilatometer |
ASTM C 680 : 2023 : REV A | Standard Practice for Estimate of the Heat Gain or Loss and the Surface Temperatures of Insulated Flat, Cylindrical, and Spherical Systems by Use of Computer Programs |
ASTM E 136 : 2024 : REV B | Standard Test Method for Assessing Combustibility of Materials Using a Vertical Tube Furnace at 750 °C |
ASTM C 1729 : 2010 | Standard Specification for Aluminum Jacketing for Insulation |
ASTM E 831 : 2024 | Standard Test Method for Linear Thermal Expansion of Solid Materials by Thermomechanical Analysis |
ASTM D 696 : 2016 | Standard Test Method for Coefficient of Linear Thermal Expansion of Plastics Between −30°C and 30°C with a Vitreous Silica Dilatometer |
ASTM D 1621 : 2016 : R2023 | Standard Test Method for Compressive Properties of Rigid Cellular Plastics |
ASTM E 136 : 2022 | Standard Test Method for Assessing Combustibility of Materials Using a Vertical Tube Furnace at 750 °C |
ASTM E 84 : 2023 | Standard Test Method for Surface Burning Characteristics of Building Materials |
ASTM C 680 : 2019 | Standard Practice for Estimate of the Heat Gain or Loss and the Surface Temperatures of Insulated Flat, Cylindrical, and Spherical Systems by Use of Computer Programs |
ASTM C 680 : 1989 : R1995 : EDT 1 | Standard Practice for Determination of Heat Gain or Loss and the Surface Temperatures of Insulated Pipe and Equipment Systems by the Use of a Computer Program |
ASTM C 1729 : 2021 | Standard Specification for Aluminum Jacketing for Insulation |
ASTM D 1621 : 2016 | Standard Test Method for Compressive Properties of Rigid Cellular Plastics |
ASTM E 136 : 2019 : REV A | Standard Test Method for Assessing Combustibility of Materials Using a Vertical Tube Furnace at 750°C |
ASTM E 84 : 2021 | Standard Test Method for Surface Burning Characteristics of Building Materials |
ASTM E 84 : 2022 | Standard Test Method for Surface Burning Characteristics of Building Materials |
ASTM C 168 : 2024 | Standard Terminology Relating to Thermal Insulation |
ASTM E 84 : 2024 | Standard Test Method for Surface Burning Characteristics of Building Materials |
ASTM C 1729 : 2019 | Standard Specification for Aluminum Jacketing for Insulation |
ASTM F 683 : 2023 : REV A | Standard Practice for Selection and Application of Thermal Insulation for Piping and Machinery |
ASTM E 84 : 2020 | Standard Test Method for Surface Burning Characteristics of Building Materials |
ASTM C 1767 : 2021 | Standard Specification for Stainless Steel Jacketing for Insulation |
ASTM E 84 : 2021 : REV A | Standard Test Method for Surface Burning Characteristics of Building Materials |
ASTM C 165 : 2007 : R2017 | Standard Test Method for Measuring Compressive Properties of Thermal Insulations |
ASTM F 683 : 2014 | Standard Practice for Selection and Application of Thermal Insulation for Piping and Machinery |
ASTM C 1136 : 2021 | Standard Specification for Flexible, Low Permeance Vapor Retarders for Thermal Insulation |
ASTM E 84 : 2023 : REV B | Standard Test Method for Surface Burning Characteristics of Building Materials |
ASTM C 680 : 2004 : EDT 2 | Standard Practice for Estimate of the Heat Gain or Loss and the Surface Temperatures of Insulated Flat, Cylindrical, and Spherical Systems by Use of Computer Programs |
ASTM C 177 : 2019 : EDT 1 | Standard Test Method for Steady-State Heat Flux Measurements and Thermal Transmission Properties by Means of the Guarded-Hot-Plate Apparatus |
ASTM E 136 : 2024 : REV C | Standard Test Method for Assessing Combustibility of Materials Using a Vertical Tube Furnace at 750 °C |
ASTM F 683 : 2023 | Standard Practice for Selection and Application of Thermal Insulation for Piping and Machinery |
ASTM C 168 : 2022 | Standard Terminology Relating to Thermal Insulation |
ASTM C 1136 : 2023 | Standard Specification for Flexible, Low Permeance Vapor Retarders for Thermal Insulation |
ASTM E 84 : 2023 : REV A | Standard Test Method for Surface Burning Characteristics of Building Materials |
ASTM C 680 : 2023 | Standard Practice for Estimate of the Heat Gain or Loss and the Surface Temperatures of Insulated Flat, Cylindrical, and Spherical Systems by Use of Computer Programs |
ASTM C 1136 : 2017 : REV A | Standard Specification for Flexible, Low Permeance Vapor Retarders for Thermal Insulation |
ASTM E 136 : 2024 : REV A | Standard Test Method for Assessing Combustibility of Materials Using a Vertical Tube Furnace at 750 °C |
ASTM E 228 : 2022 | Standard Test Method for Linear Thermal Expansion of Solid Materials With a Push-Rod Dilatometer |
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