Calcium silicate at 200 °C — heat-loss table

λ = 0.063 W/m·K at mean temperature ((200+20)/2 = 110 °C, from the published curve). Pipe losses per metre, four thicknesses, savings vs bare.

Pipe	30 mm W/m	50 mm W/m	80 mm W/m	100 mm W/m	BARE W/m	Surface @50 mm	Saving €/m·yr @50 mm	t CO2/m·yr
DN25	62	48	39	36	189	32 °C	€69	0.25
DN50	90	68	53	47	341	33 °C	€133	0.49
DN80	119	87	66	59	503	35 °C	€203	0.74
DN100	145	104	78	68	646	35 °C	€265	0.97
DN150	199	139	101	88	952	37 °C	€396	1.45
DN200	249	172	123	105	1,239	37 °C	€520	1.90
DN300	353	239	167	142	1,832	38 °C	€777	2.84

Assumptions: 20 °C ambient, still air (h=10 W/m²·K combined), €0.05/kWh fuel, 8000 h/yr, 82% efficiency, 0.183 kg CO2e/kWh (DESNZ 2024). Flat surfaces at this duty: bare 1,800 W/m² → 202 W/m² at 50 mm (≈€779/m²·yr saved). Method: ASTM C680 simplified — methodology. Your exact case: free calculator.

Context

All materials at 200 °C

Material	λ W/m·K	Loss W/m	Surface	Saving €/m·yr	t CO2/m·yr
Stone wool (mineral wool)	0.048	80	32 °C	€276	1.0
Glass wool	0.046	77	31 °C	€278	1.0
Ceramic fibre (RCF / AES blanket)	0.060	99	35 °C	€267	1.0
Aerogel blanket	0.026	45	27 °C	€294	1.1
Calcium silicate	0.063	104	35 °C	€265	1.0
Expanded perlite	0.066	109	36 °C	€262	1.0
Cellular glass	0.054	89	33 °C	€272	1.0
Microporous (fumed-silica) panels	0.022	39	26 °C	€296	1.1
E-glass needle mat	0.046	78	32 °C	€277	1.0
Silica needle mat / fabric	0.055	91	34 °C	€271	1.0

DN100 pipe at 200 °C, 50 mm insulation, per metre of pipe; bare loss 646 W/m. λ at mean temperature; € and CO2 per metre·year at €0.05/kWh, 8000 h, 82% efficiency. Method: ASTM C680 simplified (h=10).

Material datasheet: Calcium silicate → · temperature class: by temperature →

FAQ

Questions on this topic

How much heat does a pipe at 200 °C lose with calcium silicate?

With 50 mm at 200 °C (λ=0.063 at mean): DN50 loses 68 W/m, DN100 104 W/m, DN200 172 W/m — vs 646 W/m bare for DN100. Full table on this page.

What surface temperature does calcium silicate give at 200 °C?

≈35 °C with 50 mm on DN100 (20 °C ambient, still air). Personnel-protection targets (≤45–60 °C) may need more thickness — see the 80/100 mm columns.