Healthcare
Use of modern, high quality RU-FLEX thermal insulation avoids major problems: heat loss in hot water and heating systems, condensation and frost formation on cold water pipes and air-conditioning systems. Application on air ducts improves incoming air quality and reduces equipment noise.
Use of foam rubber products in healthcare facilities is approved by hygienic certification.
Owing to its thermo-technical properties, RU-FLEX foam rubber insulation is an optimal solution for use in heating systems. High energy efficiency, material durability exceeding that of alternative insulation variants, as well as easy and economic assembly, make foam rubber thermal insulation an indispensable aid in establishing healthcare facilities.
To help choose the right RU-FLEX ST and RU-FLEX ECO PHARM insulation thickness, we have prepared ready-made solutions (basic calculations).
Problem and solution
- 01Minimization of heat losses into the environment
- Calculation of insulation thickness at standard heat flow density
- 02Burn protection
- Calculation of insulation thickness at a given temperature on the insulation surface.
Calculation of insulation thickness according to normative heat flux density
Initial data
- Heat transfer medium: water
- tm = 95/70 ˚С – coolant temperature in the pipe;
- tо = 25 ˚С – temperature in the shopping center.
According to SP (Construction Regulations) 61.13330.2012 "Thermal insulation of equipment and pipelines" paragraph 6.12: it is allowed to accept the nearest lower thickness of the thermal insulation layer in cases of calculation of temperature on the insulation surface and heat flux density norms, if the difference between the calculated and nominal thickness does not exceed 3 mm.
Calculation of insulation thickness according to normative heat flux density.
Steel pipe diameter, mm | Operating mode (24-hour or heating period) | Design thickness of insulation, RU-FLEX ECO PHARM / ST, mm | Recommended insulation thickness, RU-FLEX ECO PHARM / ST, mm |
---|---|---|---|
89 |
> 5000 hours (209 days or more) |
40,55/32,92 | Т40/Т32 |
≤ 5000 hours (208 days or less) |
33,22/27,94 | Т32/Т25 |
Steel pipe diameter, mm | Operating mode (24-hour or heating period) | Calculated insulation thickness, RU-FLEX ECO PHARM PROM ALU / ST PROM ALU, mm | Recommended insulation thickness, RU-FLEX ECO PHARM PROM ALU / ST PROM ALU, mm |
---|---|---|---|
89 |
> 5000 hours (209 days or more) |
38,63/31,05 | Т40/Т32 |
≤ 5000 hours (208 days or less) |
31,29/26,06 | Т32/Т25 |
T-Designation of the tubular material.
Calculations made according to SP 61.13.330.2012 RF
Calculation of insulation thickness according to a given temperature on the insulation surface.
Initial data
- Heat transfer medium: water
- tm = 95/70 ˚С – coolant temperature in the pipe;
- tо = 25 ˚С – temperature in the shopping center.
According to SP (Construction Regulations) 61.13330.2012, paragraph 6.7.1: for insulated surfaces located in working or service areas of rooms and containing substances with a temperature of 150 °C or lower, the surface temperature of the thermal insulation should not exceed 40 °C.
Steel pipe diameter, mm | Insulation surface temperature not exceeding ˚C | Design thickness of insulation, RU-FLEX ECO PHARM / ST, mm | Recommended insulation thickness, RU-FLEX ECO PHARM / ST, mm |
---|---|---|---|
89 | 40 | 11,47/6,36 | Т13/Т9 |
Steel pipe diameter, mm | Insulation surface temperature not exceeding ˚C | Calculated insulation thickness, RU-FLEX ECO PHARM PROM ALU / ST PROM ALU, mm | Recommended insulation thickness, RU-FLEX ECO PHARM PROM ALU / ST PROM ALU, mm |
---|---|---|---|
89 | 40 | 16,51/9,28 | Т19/ Т13 |
Calculations made according to SP 61.13.330.2012 RF