ASME BPVC 2025 Section XIII: Rules for Overpressure Protection
Original price was: $555.00.$185.00Current price is: $185.00.
ASME BPVC 2025 Section XIII establishes requirements for overpressure protection of pressure equipment, including pressure relief devices, system design, sizing, installation, and documentation to prevent exceedance of allowable limits.
ASME BPVC 2025 Section XIII establishes requirements for overpressure protection of pressure equipment, including pressure relief devices, system design, sizing, installation, and documentation to prevent exceedance of allowable limits.
Book information
Purchase now to read the book instantly.
Add to cartRelated products
AASHTO HB-17: Standard Specifications for Highway Bridges, 17th Edition (2002)
AASHTO HB-17: Standard Specifications for Highway Bridges, 17th Edition (2002) provides comprehensive criteria for the design, construction, and maintenance of highway bridges throughout the United States. This edition is the final update prior to the nationwide adoption of Load and Resistance Factor Design (LRFD) standards.
Highlights:
- General provisions for bridge design, structural analysis, and performance
- Criteria for superstructures, substructures, abutments, culverts, and piers
- Service load and load factor design methods for concrete, steel, timber, and prestressed components
- Requirements for foundations, retaining structures, and soil-structure interaction
- Specifications addressing load distribution, fatigue, seismic considerations, and strength evaluation
- Commentary and notes incorporating interim revisions through 2003
- References to supporting standards from AASHTO, ASTM, AWS, and others
- Applicable to rehabilitation, legacy design validation, and maintenance planning for non-LRFD bridges
Who It’s For:
A critical reference for bridge engineers, transportation officials, and contractors working with legacy structures or evaluating designs developed before the transition to LRFD.
HB-17-2002
AASHTO HB-17: Standard Specifications for Highway Bridges, 17th Edition (2002)
AASHTO HB-17: Standard Specifications for Highway Bridges, 17th Edition (2002) provides comprehensive criteria for the design, construction, and maintenance of highway bridges throughout the United States. This edition is the final update prior to the nationwide adoption of Load and Resistance Factor Design (LRFD) standards.
Highlights:
- General provisions for bridge design, structural analysis, and performance
- Criteria for superstructures, substructures, abutments, culverts, and piers
- Service load and load factor design methods for concrete, steel, timber, and prestressed components
- Requirements for foundations, retaining structures, and soil-structure interaction
- Specifications addressing load distribution, fatigue, seismic considerations, and strength evaluation
- Commentary and notes incorporating interim revisions through 2003
- References to supporting standards from AASHTO, ASTM, AWS, and others
- Applicable to rehabilitation, legacy design validation, and maintenance planning for non-LRFD bridges
Who It’s For:
A critical reference for bridge engineers, transportation officials, and contractors working with legacy structures or evaluating designs developed before the transition to LRFD.
HB-17-2002
AWS D17.1/D17.1M:2017 – Specification for Fusion Welding for Aerospace Applications
AWS D17.1/D17.1M:2017 establishes the welding requirements for aircraft, aerospace, and space hardware using electric arc and high-energy beam fusion welding processes. It covers aluminum, nickel, iron, cobalt, titanium, and magnesium alloys and supports both flight-critical and support structure applications.
Highlights:
- Design criteria for aerospace weld joints
- Qualification requirements for procedures and personnel
- Fabrication, inspection, and acceptance standards
- Repair guidance for aerospace components
- Preweld/postweld processes including traceability and cleaning
- Visual and nondestructive exam methods with acceptance criteria
- Normative/informative annexes on bend tests, positions, acronyms, and forms
- Commentary with technical interpretation and best practices
New in the 2017 Edition:
- Annexes for UNS material designations
- Expanded welding position coverage and standardized forms
- Editorial updates for clarity and usability
Who’s It For:
Aerospace engineers, welding supervisors, inspectors, and quality professionals involved in the fabrication or evaluation of welded aerospace structures.
AWS D17.1/D17.1M-2017
AWS D17.1/D17.1M:2017 – Specification for Fusion Welding for Aerospace Applications
AWS D17.1/D17.1M:2017 establishes the welding requirements for aircraft, aerospace, and space hardware using electric arc and high-energy beam fusion welding processes. It covers aluminum, nickel, iron, cobalt, titanium, and magnesium alloys and supports both flight-critical and support structure applications.
Highlights:
- Design criteria for aerospace weld joints
- Qualification requirements for procedures and personnel
- Fabrication, inspection, and acceptance standards
- Repair guidance for aerospace components
- Preweld/postweld processes including traceability and cleaning
- Visual and nondestructive exam methods with acceptance criteria
- Normative/informative annexes on bend tests, positions, acronyms, and forms
- Commentary with technical interpretation and best practices
New in the 2017 Edition:
- Annexes for UNS material designations
- Expanded welding position coverage and standardized forms
- Editorial updates for clarity and usability
Who’s It For:
Aerospace engineers, welding supervisors, inspectors, and quality professionals involved in the fabrication or evaluation of welded aerospace structures.
AWS D17.1/D17.1M-2017
API 650: Welded Tanks for Oil Storage, 13th Edition (2020)
API 650: Welded Tanks for Oil Storage, 13th Edition (2020) sets the standard for the design, construction, and inspection of vertical, cylindrical, aboveground welded storage tanks operating near atmospheric pressure. Intended for non-refrigerated service up to 93°C (200°F), this specification is essential for tanks used in the storage of petroleum, chemicals, and other liquid products.
Highlights:
- Covers open-top and closed-top tank design for a wide range of capacities
- Allows construction using carbon steel, stainless steel, and duplex steel materials
- Specifies requirements for shell, bottom, roof, nozzle components, and structural supports
- Provides detailed material selection guidance and limits for plates, flanges, and welding consumables
- Defines procedures for welding, welder qualification, and weld inspection
- Includes standards for erection, hydrostatic testing, tolerances, and repair methods
- Annexes address specialized applications:
- Seismic design (Annex E)
- Floating roofs (Annexes C and H)
- Aluminum and stainless steel tanks (Annexes AL and S)
- Elevated temperature service (Annex M)
- Leak detection, under-bottom connections (Annexes I and O)
- API Monogram licensing (Annex Y)
Who It’s For:
A critical reference for storage tank engineers, fabricators, inspectors, and facility operators involved in tank design, procurement, fabrication, and field erection in the oil, gas, chemical, and industrial sectors.
API 650-2020
API 650: Welded Tanks for Oil Storage, 13th Edition (2020)
API 650: Welded Tanks for Oil Storage, 13th Edition (2020) sets the standard for the design, construction, and inspection of vertical, cylindrical, aboveground welded storage tanks operating near atmospheric pressure. Intended for non-refrigerated service up to 93°C (200°F), this specification is essential for tanks used in the storage of petroleum, chemicals, and other liquid products.
Highlights:
- Covers open-top and closed-top tank design for a wide range of capacities
- Allows construction using carbon steel, stainless steel, and duplex steel materials
- Specifies requirements for shell, bottom, roof, nozzle components, and structural supports
- Provides detailed material selection guidance and limits for plates, flanges, and welding consumables
- Defines procedures for welding, welder qualification, and weld inspection
- Includes standards for erection, hydrostatic testing, tolerances, and repair methods
- Annexes address specialized applications:
- Seismic design (Annex E)
- Floating roofs (Annexes C and H)
- Aluminum and stainless steel tanks (Annexes AL and S)
- Elevated temperature service (Annex M)
- Leak detection, under-bottom connections (Annexes I and O)
- API Monogram licensing (Annex Y)
Who It’s For:
A critical reference for storage tank engineers, fabricators, inspectors, and facility operators involved in tank design, procurement, fabrication, and field erection in the oil, gas, chemical, and industrial sectors.
API 650-2020
2021 International Private Sewage Disposal Code – IPSDC-2021
The 2021 International Private Sewage Disposal Code® (IPSDC) establishes standards for the design, installation, and maintenance of on-site sewage systems for properties not connected to public sewer systems. It covers new systems and alterations to existing wastewater treatment infrastructure, ensuring health and environmental safety in decentralized applications.
Highlights:
- Offers a prescriptive design approach based on soil conditions, system size, and site evaluation
- Covers soil absorption systems, holding tanks, cesspools, and residential/light commercial treatment units
- Requires structured site evaluations based on percolation rates and environmental conditions
- Specifies construction and material standards for piping, tanks, system layout, and backfill
- Includes enforcement and administrative guidance for permitting, inspections, and jurisdictional customization
- Fully coordinated with the 2021 I-Codes, including IPC, IRC, and IEBC
Who It’s For:
Environmental health professionals, contractors, designers, and code officials regulating private sewage systems in non-sewered areas.
IPSDC-2021
2021 International Private Sewage Disposal Code – IPSDC-2021
The 2021 International Private Sewage Disposal Code® (IPSDC) establishes standards for the design, installation, and maintenance of on-site sewage systems for properties not connected to public sewer systems. It covers new systems and alterations to existing wastewater treatment infrastructure, ensuring health and environmental safety in decentralized applications.
Highlights:
- Offers a prescriptive design approach based on soil conditions, system size, and site evaluation
- Covers soil absorption systems, holding tanks, cesspools, and residential/light commercial treatment units
- Requires structured site evaluations based on percolation rates and environmental conditions
- Specifies construction and material standards for piping, tanks, system layout, and backfill
- Includes enforcement and administrative guidance for permitting, inspections, and jurisdictional customization
- Fully coordinated with the 2021 I-Codes, including IPC, IRC, and IEBC
Who It’s For:
Environmental health professionals, contractors, designers, and code officials regulating private sewage systems in non-sewered areas.
IPSDC-2021