How to Download SAES-Q-005 PDF Online

If you are involved in the design and construction of concrete foundations for Saudi Aramco projects, you need to be familiar with SAES-Q-005, the engineering standard that covers mandatory requirements for this type of work. SAES-Q-005 is one of the many Saudi Aramco engineering standards (SAES) that establish minimum specifications for the selection, design, construction, test, maintenance, and repair of equipment and facilities.

In this article, we will explain what SAES-Q-005 is, what are its main features and requirements, and how you can access it online in PDF format. By reading this article, you will learn how to comply with SAES-Q-005 and ensure the quality and safety of your concrete foundations.

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Scope of SAES-Q-005

Types of concrete foundations covered by SAES-Q-005

SAES-Q-005 applies to all cast-in-place concrete foundations, except for retaining walls, which are covered by SAES-Q-009. Cast-in-place concrete foundations are those that are poured on site using forms and reinforcement. Examples of cast-in-place concrete foundations are footings, pedestals, piers, slabs, mats, piles, caissons, etc.

SAES-Q-005 also covers additional design and construction requirements for heavy machinery foundations, which are covered by SAES-Q-007. Heavy machinery foundations are those that support equipment such as compressors, pumps, turbines, generators, etc.

The design and construction of precast concrete foundations, which are those that are fabricated off site and transported to the site for installation, are covered by SAES-Q-012. The design and construction of pipeline anchor blocks, which are those that resist longitudinal forces in buried pipelines, are covered by SAES-L-440.

Exclusions and deviations from SAES-Q-005

SAES-Q-005 does not cover the following types of concrete structures:

• Buildings and architectural features

• Concrete tanks and vessels

• Concrete pavements

• Concrete bridges

• Concrete dams

• Concrete tunnels

• Concrete offshore structures

These types of concrete structures have their own specific engineering standards or codes that apply to them.</p References for SAES-Q-005

Saudi Aramco engineering standards and procedures

SAES-Q-005 is based on and complies with several Saudi Aramco engineering standards and procedures that are relevant to the design and construction of concrete foundations. These include:

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Standard/Procedure

Description

SAEP-302

Instructions for obtaining a waiver of a mandatory Saudi Aramco engineering requirement

SAES-A-112

Meteorological and seismic design data

SAES-A-113

Geotechnical engineering requirements

SAES-A-114

Excavation and backfill

SAES-A-202

Saudi Aramco engineering drawing preparation

SAES-L-440

Anchors for buried pipelines

SAES-M-001

Structural design criteria for non-building structures

SAES-M-009

Design criteria for blast resistant buildings

SAES-M-100

Saudi Aramco building code

SAES-Q-001

Quality requirements for civil, structural, architectural, and landscaping works

SAES-Q-007

Heavy machinery foundations

SAES-Q-012

Precast concrete

SAES-S-020

Concrete reinforcement

SAES-S-030

Structural steel fabrication and erection

SAMSS-007

Ready-mixed concrete

SAMSS-009

Cementitious materials for use in concrete

SAMSS-010

Aggregates for use in concrete

SAMSS-011

Chemical admixtures for use in concrete

SAMSS-012

Concrete curing materials and methods

SAMSS-013

Concrete repair materials and methods

SAMSS-014

Concrete testing services

SASD-SA-1010

Typical details of concrete foundations for equipment and structures

SASD-SA-1011

Typical details of concrete foundations for heavy machinery equipment and structures

In addition to these Saudi Aramco engineering standards and procedures, SAES-Q-005 also references several industry codes and standards that are applicable to the design and construction of concrete foundations.

Industry codes and standards

SAES-Q-005 adopts and complies with the following industry codes and standards for concrete foundations:

Code/Standard

Description

ACI 318

Building code requirements for structural concrete

ACI 301

Specifications for structural concrete

ACI 305R

Guide to hot weather concreting

ACI 306R

Guide to cold weather concreting

ACI 308R

Guide to external curing of concrete

ACI 309R

Guide for consolidation of concrete

ACI 311.4R

Guide for concrete inspection

ACI 311.5R

Guide for concrete plant inspection and testing of ready-mixed concrete

ACI 311.6R

Guide for testing and inspection of field applied thin-shell precast concrete panels used as permanent forms for cast-in-place floor and roof decks

ACI 347R

Guide to formwork for concrete

ACI 349.3R

Evaluation of existing nuclear safety-related concrete structures

ANSI/AISC 360

Specification for structural steel buildings

ANSI/AISC 341

Seismic provisions for structural steel buildings

These industry codes and standards provide the technical basis and guidelines for the design and construction of concrete foundations in accordance with the best practices and latest developments in the field. SAES-Q-005 follows these codes and standards unless otherwise specified or modified by Saudi Aramco.

Definitions for SAES-Q-005

SAES-Q-005 defines several terms that are used throughout the standard to describe the requirements and procedures for concrete foundations. These include:

Hydrostatic test

A hydrostatic test is a test that involves filling a concrete foundation or a portion of it with water and applying a specified pressure to check for leaks, cracks, or defects. A hydrostatic test is usually performed after the concrete has cured and before the foundation is put into service.

Pneumatic test

A pneumatic test is a test that involves filling a concrete foundation or a portion of it with air or an inert gas and applying a specified pressure to check for leaks, cracks, or defects. A pneumatic test is usually performed as an alternative to a hydrostatic test when water is not available or not suitable for testing.

Test pressure

A test pressure is the pressure that is applied to a concrete foundation or a portion of it during a hydrostatic or pneumatic test. The test pressure is usually expressed as a percentage of the design pressure or the maximum allowable working pressure of the foundation.

Test medium

A test medium is the fluid that is used to fill a concrete foundation or a portion of it during a hydrostatic or pneumatic test. The test medium can be water, air, nitrogen, helium, or any other suitable fluid that does not adversely affect the concrete or the equipment.

Test certificate

A test certificate is a document that records the results and details of a hydrostatic or pneumatic test performed on a concrete foundation or a portion of it. A test certificate includes information such as the date and time of the test, the location and description of the foundation, the test pressure and duration, the test medium and temperature, the acceptance criteria and results, and the signatures of the authorized personnel. General requirements for SAES-Q-005

Test methods and equipment

SAES-Q-005 specifies the methods and equipment that must be used to perform hydrostatic or pneumatic tests on concrete foundations. These include:

• The test pressure must be applied gradually and uniformly to avoid sudden pressure changes or shocks.

• The test pressure must be maintained for at least 30 minutes or as specified by the design engineer.

• The test pressure must be measured by a calibrated pressure gauge with an accuracy of at least 1% of the full scale.

• The test medium must be free of contaminants, corrosive substances, or additives that may damage the concrete or the equipment.

• The test medium must be compatible with the ambient temperature and the design temperature of the foundation.

• The test medium must be vented or drained from the foundation after the test is completed.

Test safety and environmental precautions

SAES-Q-005 requires that adequate safety and environmental precautions must be taken before, during, and after the hydrostatic or pneumatic tests on concrete foundations. These include:

• All personnel involved in the test must wear appropriate personal protective equipment (PPE) such as gloves, goggles, helmets, etc.

• All personnel involved in the test must be trained and qualified to perform the test safely and correctly.

• All personnel involved in the test must follow the relevant Saudi Aramco safety rules and regulations.

• All equipment and materials used in the test must be inspected and verified to be in good condition and suitable for the test.

• All potential hazards and risks associated with the test must be identified and mitigated before the test is started.

• All necessary permits and approvals must be obtained from Saudi Aramco and other authorities before the test is conducted.

• All affected parties must be notified and informed of the test schedule, location, and procedures.

• All nearby structures, equipment, and utilities must be protected from possible damage or interference caused by the test.

• All waste materials and fluids generated by the test must be disposed of properly and in accordance with Saudi Aramco environmental standards.

Load Combination

Minimum Stability Ratio

Dead load + live load

1.5

Dead load + live load + wind load

1.2

Dead load + live load + earthquake load

1.1

Dead load + live load + wind load + earthquake load

1.0

The stability ratio is the ratio of the resisting moment to the overturning moment of the foundation. The resisting moment is the product of the weight of the foundation and the equipment and the distance from the center of gravity to the edge of the foundation. The overturning moment is the product of the horizontal force acting on the equipment and the distance from the point of application to the base of the foundation.

Q4: What are the acceptable hydrostatic testing fluids and lay-up procedures in SAES-Q-005?

A4: The acceptable hydrostatic testing fluids and lay-up procedures in SAES-Q-005 are as follows:

• The preferred hydrostatic testing fluid is potable water.

• If potable water is not available, treated water or seawater may be used with prior approval from Saudi Aramco.

• If water is not suitable for testing, an inert gas such as nitrogen or helium may be used with prior approval from Saudi Aramco.

• The hydrostatic testing fluid must be free of contaminants, corrosive substances, or additives that may damage the concrete or the equipment.

• The hydrostatic testing fluid must be compatible with the ambient temperature and the design temperature of the foundation.

• The hydrostatic testing fluid must be vented or drained from the foundation after the test is completed.

• If water is used as the hydrostatic testing fluid, the foundation must be dried and protected from moisture after the test is completed.

• If seawater is used as the hydrostatic testing fluid, the foundation must be flushed with fresh water and dried after the test is completed.

• If an inert gas is used as the hydrostatic testing fluid, the foundation must be purged with air and ventilated after the test is completed.

Q5: How to contact Saudi Aramco for more information on SAES-Q-005?

A5: If you have any questions or comments on SAES-Q-005 or any other Saudi Aramco engineering standard, you can contact Saudi Aramco through one of the following ways:

• Email: engineeringstandards@aramco.com

• Phone: +966 13 874 8000

• Fax: +966 13 874 8181

• Mail: Engineering Standards Department, Saudi Aramco, P.O. Box 10969, Dhahran 31311, Saudi Arabia

• Website: [text]

We hope you found this article helpful and informative. If you want to download SAES-Q-005 PDF online, you can visit this link: [text]. Thank you for reading and have a great day! 44f88ac181