BS 5970:1992
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
Code of practice for thermal insulation of pipework and equipment (in the temperature range -100°C to +870°C)
Hardcopy , PDF
21-12-2001
English
01-04-1992
Committees responsible
Foreword
Code
Section 1. General
1 Scope
2 Definitions
3 Exchange of design data
4 Factors affecting planning and programming
Section 2. Selection of insulating materials and
systems
5 Typical characteristics
6 Selection of thermal insulating materials
7 Selection of securing materials
8 Selection of vapour barriers
9 Selection of finishing materials, including ultimate
treatment of finish
10 Selection of thermal insulating systems
Section 3. Site considerations
11 Basis and method of presenting schedule of work
12 Packaging and transport to site
13 Labour and supervision
14 Provision of storage space and protection and safety
during storage
15 Provision of power, water, light, heat and
accommodation for personnel
16 Provision of access equipment
17 Responsibility for studs, cleats, etc.
18 Observance of site safety and security regulations
19 Protection of adjacent equipment and surfaces
20 Clearing waste material from site
21 Health considerations
Section 4. Methods of application
22 General
23 Surface preparation and accessories
24 Cold insulation: application for systems operating
in the temperature range - 100 deg C to ambient
temperature
25 Hot insulation: application for systems operating in
the temperature range above ambient to 870 deg C
Section 5. Finishes and their methods of application
26 Indoor finishes
27 Weather-resistant finishes
28 Ultimate treatment of finish painting
Section 6. Inspection, testing and maintenance
29 Inspection and testing
30 Maintenance recommendations
Section 7. Guarantees
31 General
Section 8. Design considerations
32 Practical considerations
33 Recommended formulae and calculations
Tables
1 Typical insulating materials for use at temperatures
higher than ambient
2 Typical insulating materials for use at temperatures
below ambient
3 Insulation bonding adhesives for preformed sections
and slabs
4 Typical insulation finishes
5 Thickness of metal cleading
6 Compatibility between screws/rivets and cleading
material
7 Typical values for water vapour permeance
8 Water vapour permeance conversion table
9 Values for thermal resistance
10 Example of heat loss from vessel
11 Example of heat loss for pipes or flat surfaces
Figures
1 Typical conductivity values for insulating materials
2 Contraction/expansion joints: linear thermal
movement of materials
3 Detail of a typical compression/support joint
(refrigeration)
4 Typical cleading and/or insulation support for
vertical pipework
5 Typical methods of insulating vessels
6 Typical insulation supports for vessels
7 Method of supporting cleading
8 Hanger for insulated cold pipes (refrigeration)
9 Two-piece strap, direct contact, insulation covering
strap
10 Two-piece strap, using insulating ring
11 Typical hanger for insulated cold pipes
12 Alternative typical hangers for insulated cold pipes
13 Typical valve box (cold pipework)
14 Typical flange box (cold pipework)
15 Typical method of insulating flanges (for cold work)
16 Typical method of insulating branches of vessels
(for cold work)
17 Typical method of insulating manhole (cold work)
18 Typical method of insulating vessel skirt (cold
insulation)
19 Vapour barriers: suggested values for water vapour
permeance
20 Method of insulating pipe flanges (hot insulation)
21 Method of insulating a valve (applicable to a
plastic finish)
22 Typical method of staggering insulation sections on
a straight pipe
23 Two-piece strap, direct contact, insulation clear of
strap
24 U-bolt cradle, direct contact
25 Inverted U-bolt cradle, direct contact
26 U-bolt cradle using insulation ring
27 Inverted U-bolt cradle using insulation ring
28 Two-piece strap cradle using insulation ring
29 Typical proprietary support inserts
30 Typical method of insulating flexible pipe
31 Typical method of insulating expansion bellows
32 Typical method of insulating steam traced pipe
33 Metal valve box
34 Moulded or fabricated, removable flange box
35 Typical methods of insulating pipe flanges (hot
insulation)
36 Details of inverted collars at manholes, etc.
37 Typical flanged nozzle or manhole
38 Typical flanged nozzle or manhole with additional
branch insulation
39 Typical arrangement showing termination of
insulation adjacent to the tank bottom
40 Typical arrangement showing termination of
insulation adjacent to the tank roof
41 Typical method for insulating vessels with conical
bottoms
42 Insulated support plate for metal cleading: 150 mm
square
43 Typical joints in sheet metal
44 Typical expansion joint between hot vessel and self-
setting cement covering
45 Time to reach freezing point from a temperature of
+ 5 deg C (static water in a pipe) with air at - 10
deg C and a thermal conductivity of insulation of
0.04 W/(m.K)
46 Additional time for complete ice formation (static
water at a temperature of 0 deg C in a pipe) with
air at - 10 deg C and a thermal conductivity of
insulation of 0.04 W/(m.K)
47 Saturation vapour pressure against temperature over
ice
48 Chart solution for the equation
chi = 0.5(d0 + 2L)ln(1 + (2L/do))
Index
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