This standard should be used in conjunction with IEEE Std 844.3™/CSA C22.2 No. 293.3, IEEE/CSA Standard for Impedance Heating of Pipelines and Equipment—General, Testing, Marking, and Documentation Requirements. Since impedance heating systems are interrelated with electric power, control, and alarm systems, other standards (some of which are listed in Clause 2) should be referred to when using this standard.
This standard is not intended to supersede any current standards or recommended practices, and sound engineering judgment should always be used when applying this or any other standard. This standard correlates industry practices; it is not intended to be a design guide or an exhaustive procedure manual. The annexes that are included in this standard are informative.
1.1 General This standard is divided into seven clauses.
- Clause 1 provides the scope and purpose.
- Clause 2 lists references to other standards that are useful in applying this standard.
- Clause 3 references definitions that are found in IEEE Std 844.3/CSA C22.2 No.293.3.
- Clause 4 establishes the design guidelines for impedance heating.
- Clause 5 provides installation considerations and guidelines.
- Clause 6 covers field testing, start-up, commissioning, and operation of impedance heating systems.
- Clause 7 provides maintenance and repair guidelines.
This standard also contains annexes.
- Annex A provides bibliographical references.
- Annex B provides pipe heat loss calculation methods.
- Annex C provides heat-up and cool-down calculation methods.
- Annex D provides a method to determine equivalent thicknesses of insulating cements.
- Annex E provides an example of design input parameters for an impedance heating design.
- Annex F presents an example of a record for installation requirements.
- Annex G shows an example of a form that can be used to document the commissioning of the system.
- Annex H presents an example of a preventive maintenance record.
- Annex I shows the insulated impedance conductor types covered in this standard.
1.2 Scope This standard provides for the application of impedance heating systems for steel or steel alloy pipe and equipment. It provides recommendations for design, installation, maintenance, and repair of these systems in general industry applications. This standard applies to impedance heating systems intended to be installed in ordinary and hazardous locations with explosive atmospheres.
The hazardous locations include the following:
- In Canada: Zone 2; Zone 22; or Class I, Division 2; Class II, Division 2; Class III, Division 2 as described in CSA C22.1; and
- In the USA: Class I, Zone 2; Zone 22; or Class I, Division 2; Class II, Division 2; Class III, Division 2 as described in the NEC.
This standard, when used with other recognized codes and standards, is intended to cover impedance heating systems in their entirety, including system design, specification, installation, operation, testing, commissioning, and maintenance.
This document also addresses the following associated systems that are important to the performance of impedance heating systems:
a) Thermal insulation systems;
b) Electric power supply systems;
c) Electric grounding systems; and
d) Control and monitoring systems.
1.3 Purpose This standard is intended to aid the user in specifying, installing, operating, testing during commissioning, and maintaining impedance heating systems that:
a) Maintain design temperature;
b) Provide electrical, thermal, and mechanical durability and reliability; and
c) Reduce hazards to the user and the surroundings.
Design information, selection parameters, and data in this standard are not intended to provide a complete design primer for impedance heating systems.
The information presented provides guidelines for the following:
- Selecting the optimum impedance heating system design;
- Establishing design criteria and constraints for the heated pipeline or equipment to help ensure system compatibility
- Preparing specifications to obtain quotations for impedance heating systems; and
- Developing information on installation, operation, testing, commissioning, and maintenance of the impedance heating system.