Mechanical Insulation Design Guide - Design Objectives

by the National Mechanical Insulation Committee (NMIC)

Last updated: 06-19-2014

Energy Calculator for Equipment (Vertical Flat Surfaces)

This calculator estimates the performance of an insulated vertical flat surface given the operating temperature, the ambient temperature, and other details about the system.

Instructions

  • Line 1. Enter the surface area of interest
  • Line 2. Enter average operating (process) temperature for the period of operation
  • Line 3. Enter average ambient temperature for the period of operation
  • Line 4. Enter average wind speed for the period of operation (if unknown, use 1 mph for indoor, 8 mph for outdoor)
  • Line 5. Select an insulation material. Note: Calculator does not screen for material temperature limitations - use caution.
  • Line 6. Enter a cost multiplier to modify the default installed costs (e.g. enter 1.10 to increase costs 10%)
  • Line 7. Enter the effective emittance of the exterior surface (see MIDG>Design Data>Table 1 for guidance)
  • Line 8. Enter the expected life of the insulation system in years
  • Line 9. Enter the number of hours per year of system operation (e.g. 8760 for full year operation)
  • Line 10. Enter the conversion efficiency of the system in percent

    Typical conversion efficiencies for various systems are:

    Fossil fuel boilers (Non-condensing)   65 - 85%
    Fossil fuel boilers (Condensing)80 - 95%
    Electric resistance boilers92 - 96%
    Electrically operated chillers300 - 700%
    Absorption chillers60 - 100%
  • Line 11. Select the fuel used
  • Line 12. Enter cost of fuel if known or use default value

Assumptions

  • One dimensional, steady state heat transfer
  • Base structure is a vertical flat steel surface
  • Thermal conductivity based on ASTM Specification Values
  • Installed costs of insulation are from industry sources and represent single layer installations
  • Installed costs include aluminum jacketing but do not include vapor retarders or vapor sealing
  • Fuel content, emissions and typical fuel costs are from U.S. Energy Information Administration
  • Emissions are in Metric Tonne per year (MT/yr)and are are assumed to be at the facility (except for electricity which are are at the power plant)

Note: NA means Not Available

Input Information
1. Surface Area, ft2
2. Operating Temperature, °F
3. Ambient Temperature, °F
4. Wind Speed, mph
5. Select Insulation
6. Installed Cost Multiplier
7. Emittance of Surface
8. Expected Useful Life of Insulation System, yrs
9. Operating Hours per Year
10. Efficiency of Fuel Conversion, %
11. Select Fuel
12. Cost of Fuel, $/Mcf