Degrees Centigrade and Fahrenheit Conversion.
Basically, Centigrade = 5/9 (Fahrenheit - 32) or Fahrenheit = (9/5 Centigrade) +32
This is a very useful temperature conversion table to convert steam pressure to steam temperature, especially helpful when choosing a steam solenoid valve.
Solenoid Valve Temperature Ratings – High & Low Temperature Solutions
At Solenoid Valve World, we understand that temperature compatibility is one of the most critical factors in choosing the right solenoid valve for your system. Whether you're working with extreme heat, freezing conditions, or fluctuating thermal environments, we offer a wide range of temperature-rated solenoid valves designed for reliable performance in any climate or industrial process.
Standard Temperature Range for Solenoid Valves
Most general-purpose solenoid valves operate effectively within a temperature range of:
-10°C to +80°C (14°F to 176°F)
This range is ideal for standard applications including:
Water and air systems
Low-pressure steam
Light oils and fuels
HVAC and irrigation setups
High-Temperature Solenoid Valves
For demanding environments where fluids or gases reach higher temperatures, we provide specialised solenoid valves rated for:
Up to +180°C (356°F) and beyond
These high-temperature valves often include:
PTFE (Teflon), FKM (Viton®), or EPDM seals
Stainless steel bodies for heat resistance and durability
Enhanced coil insulation for continuous duty in hot conditions
Ideal for:
Steam systems
Industrial ovens
Hot oil applications
Chemical processing
Low-Temperature Solenoid Valves
Need valves for cold or cryogenic environments? We also supply solenoid valves rated down to:
-40°C (-40°F) or lower
Features include:
Special low-temperature elastomers
Anti-condensation and frost-resistant materials
Coils designed for consistent actuation in sub-zero temperatures
These valves are commonly used in:
Outdoor installations
Freezer automation
Gas and air applications in cold climates
Selecting the Right Valve for Temperature Conditions
When choosing a solenoid valve based on temperature, consider:
Media type and flow rate
Ambient vs. media temperature
Seal compatibility
Electrical coil temperature rating
Our team at Solenoid Valve World can help you match the right valve and seal material—such as NBR, EPDM, FKM, or PTFE—to your operating temperature range.
Why Buy from Solenoid Valve World?
Wide range of temperature-rated valves in stock
Expert guidance for material and seal selection
Fast global delivery and competitive pricing
Trusted supplier for industrial, commercial, and OEM markets
Explore our full range of solenoid valves by temperature rating + media now:
Centigrade - Fahrenheit Conversion Table |
|||||||||||||
°C |
°F |
°C |
°F |
°F |
°F |
°C |
°F |
°C |
°F |
°C |
°F |
||
-40 |
-40 |
-10 |
14 |
20 |
68 |
50 |
122 |
80 |
176 |
110 |
230 |
140 |
284 |
-39 |
-38.2 |
-9 |
15.8 |
21 |
69.8 |
51 |
123.8 |
81 |
177.8 |
111 |
231.8 |
141 |
285.8 |
-38 |
-36.4 |
-8 |
17.6 |
22 |
71.6 |
52 |
125.6 |
82 |
179.6 |
112 |
233.6 |
142 |
287.6 |
-37 |
-34.6 |
-7 |
19.4 |
23 |
73.4 |
53 |
127.4 |
83 |
181.4 |
113 |
235.4 |
143 |
289.4 |
-36 |
-32.8 |
-6 |
21.2 |
24 |
75.2 |
54 |
129.2 |
84 |
183.2 |
114 |
237.2 |
144 |
291.2 |
-35 |
-31 |
-5 |
23 |
25 |
77 |
55 |
131 |
85 |
185 |
115 |
239 |
145 |
293 |
-34 |
29.2 |
-4 |
24.8 |
26 |
78.8 |
56 |
132.8 |
86 |
186.8 |
116 |
240.8 |
146 |
294.8 |
-33 |
-27.4 |
-3 |
26.6 |
27 |
80.6 |
57 |
134.6 |
87 |
188.6 |
117 |
242.6 |
147 |
296.6 |
-32 |
-25.6 |
-2 |
28.4 |
28 |
82.4 |
58 |
136.4 |
88 |
190.4 |
118 |
244.4 |
148 |
298.4 |
-31 |
-23.8 |
-1 |
30.2 |
29 |
84.2 |
59 |
138.2 |
89 |
192.2 |
119 |
246.2 |
149 |
300.2 |
-30 |
-22 |
0 |
32 |
30 |
86 |
60 |
140 |
90 |
194 |
120 |
248 |
150 |
302 |
-29 |
-20.2 |
1 |
33.8 |
31 |
87.8 |
61 |
141.8 |
91 |
195.8 |
121 |
249.8 |
151 |
303.8 |
-28 |
-18.4 |
2 |
35.6 |
32 |
89.6 |
62 |
143.6 |
92 |
197.6 |
122 |
251.6 |
152 |
305.6 |
-27 |
-16.6 |
3 |
37.4 |
33 |
91.4 |
63 |
145.4 |
93 |
199.4 |
123 |
253.4 |
153 |
307.4 |
-26 |
-14.8 |
4 |
39.2 |
34 |
93.2 |
64 |
147.2 |
94 |
201.2 |
124 |
255.2 |
154 |
309.2 |
-25 |
-13 |
5 |
41 |
35 |
95 |
65 |
149 |
95 |
203 |
125 |
257 |
155 |
311 |
-24 |
-11.2 |
6 |
42.8 |
36 |
96.8 |
66 |
150.8 |
96 |
204.8 |
126 |
258.8 |
156 |
312.8 |
-23 |
-9.4 |
7 |
44.6 |
37 |
98.6 |
67 |
152.6 |
97 |
206.6 |
127 |
260.6 |
157 |
314.6 |
-22 |
-7.6 |
8 |
46.4 |
38 |
100.4 |
68 |
154.4 |
98 |
208.4 |
128 |
262.4 |
158 |
316.4 |
-21 |
-5.8 |
9 |
48.2 |
39 |
102.2 |
69 |
156.2 |
99 |
210.2 |
129 |
264.2 |
159 |
318.2 |
-20 |
-4 |
10 |
50 |
40 |
104 |
70 |
158 |
100 |
212 |
130 |
266 |
160 |
320 |
-19 |
-2.2 |
11 |
51.8 |
41 |
105.8 |
71 |
159.8 |
101 |
213.8 |
131 |
267.8 |
161 |
321.8 |
-18 |
-0.4 |
12 |
53.6 |
42 |
107.6 |
72 |
161.6 |
102 |
215.6 |
132 |
269.6 |
162 |
323.6 |
-17 |
1.4 |
13 |
55.4 |
43 |
109.4 |
73 |
163.4 |
103 |
217.4 |
133 |
271.4 |
163 |
325.4 |
-16 |
3.2 |
14 |
57.2 |
44 |
111.2 |
74 |
165.2 |
104 |
219.2 |
134 |
273.2 |
164 |
327.2 |
-15 |
5 |
15 |
59 |
45 |
113 |
75 |
167 |
105 |
221 |
135 |
275 |
165 |
329 |
-14 |
6.8 |
16 |
60.8 |
46 |
114.8 |
76 |
168.8 |
106 |
222.8 |
136 |
276.8 |
166 |
330.8 |
-13 |
8.6 |
17 |
62.6 |
47 |
116.6 |
77 |
170.6 |
107 |
224.6 |
137 |
278.6 |
167 |
332.6 |
-12 |
10.4 |
18 |
64.4 |
48 |
118.4 |
78 |
172.4 |
108 |
226.4 |
138 |
280.4 |
168 |
334.4 |
-11 |
12.2 |
19 |
66.2 |
49 |
120.2 |
79 |
174.2 |
109 |
228.2 |
139 |
282.2 |
169 |
336.2 |
Degrees Celsius (C) Centigrade = (Degrees Fahrenheit -32 X 5) then divide by 9
Degrees Fahrenheit (F) = (Degrees Celsius X 9) then divide by 5 finally add 32
Degrees Kelvin (K) = Degrees Centigrade + 273.15
Degrees Ranking = Degrees Fahrenheit + 459.69
0 Degrees (R) or (K) = Absolute Zero (-273.15 C) which is technically Impossible and if we ever did achieve this it would probably generate a Black Hole, and we'd all quickly vanish.
Read our FAQ section for more guidance and technical information.
Try our Valve Wizard to find high temperature valves for your application.
