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Heating and cooling temperature control system is aways used for double layer glass reactor
, three layer glass reactor
and rotary evaporator
,etc. In chemistry laboratory, for the material which couldn’t react under normal temperature, you need to create a high or low temperature conditions to prompt material reaction. Generally, after finish charging material in glass reaction vessel, you need to choose heat-conducting medium (ethyl alcohol or liquid nitrogen for low temperature / water for 0-90℃ / silicon oil for high temperature) which is added in glass reactor jacketed layer, finally use heating & cooling temp. control system to control material reaction temperature. -
So heating and cooling temperature control system as conventional laboratory instrument, how to make the best use of it?
And make research more efficient & accurate finally? Let’s solve this problem together through actual application examples.
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For TOPTION 50L Double Layer Glass Reactor
Heating Test1. TOPTION SUNDI series dynamic temperature control system
works together with TOPTION 50L double layer glass reactor, below picture 1 display the material use 78 minutes heating from 29℃ to 150℃. The temperature of glass reactor jacketed layer reach 194.5℃. So heating to 150℃ is rapidly, self-adaptation control dynamic display, research material no overshoot phenomenon.Cooling from high temperature 150℃ to 70℃, this whole process cost 54 minutes, you could see the temperature of glass reactor jacketed layer reach to 22℃. Heat-conducting medium cooling to the lowest temperature -20℃, during whole process, there’s no overshoot phenomenon. For heat-conducting medium, cooling from 70℃ to -10℃ need cost 25 minutes.
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Test conditions:
1) Temperature range: -25℃ ~ 200℃.
2) Refrigerating capacity: 7KW 200℃ …… 0℃. 3.8KW -20℃.
3) Load heat-conducting medium: KDOC-250 35L.
4) Glass reactor: TOPTION 50L double layer glass reactor.
5) Glass reactor stirring rate: 115rpm.
6) Heat preservation: N/A.
2. SUNDI series temperature control system works together with TOPTION 50L jacketed glass reactor, a typical test: 10℃ ~ 135℃ cycle controlling, the below picture 2 display and tell us that: its controlling result is repeatability, the rate of curve for every cycle is the same, so has greatly increased the production constant temperature environment consistency, during whole process, material temperature measuring point has no overshoot phenomenon, rapidly and stable.
Test conditions:
1) Temperature range: -25℃ ~ 200℃.
2) Refrigerating capacity: 7KW 200℃ …… 0℃. 3.8KW -20℃.
3) Load heat-conducting medium: KDOC-250 38L.
4) Glass reactor: TOPTION 50L double layer glass reactor.
5) Glass reactor stirring rate: 155rpm.
6) Heat preservation: Simple heat preservation.
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For TOPTION 10L Double Layer Glass Reactor
Cooling TestTOPTION SUNDI series dynamic temperature control system
works together with TOPTION 10L double layer glass reactor, below picture 3 display the material use 40 minutes cooling from 26.2℃ to -10℃. The temperature of glass reactor jacketed layer reach -31.6℃. So cooling speed is rapidly, self-adaptation control dynamic display, research material no overshoot phenomenon.Heating from -10℃ to -30℃, this whole process cost 50 minutes, heat-conducting medium cooling to the lowest temp. -40℃, during whole process, there’s no overshoot phenomenon. For heat-conducting medium, heating from -30℃ to 80℃ need cost 19 minutes.
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Test conditions:
1) Temperature range: -45℃ ~ 180℃.
2) Refrigerating capacity: 1.8KW 180℃ …… 0℃. 1KW -20℃.
3) Load heat-conducting medium: KDOC-220 7L.
4) Glass reactor: TOPTION 50L double layer glass reactor.
5) Glass reactor stirring rate: 135rpm.
6) Heat preservation: Simple heat preservation.
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For TOPTION 30L Double Layer Glass Reactor
Cooling TestTOPTION SUNDI series dynamic temperature control
system works together with TOPTION 30L double layer glass reactor, below picture 4 display the material use 50 minutes cooling from 20.2℃ to -30℃. The temperature of glass reactor jacketed layer reach -50.5℃. So cooling speed is rapidly, self-adaptation control dynamic display, research material no overshoot phenomenon.Heating from -30℃ to -70℃, this whole process cost 28 minutes, the temperature of glass reactor jacketed layer reach 130.9℃,during whole process, there’s no overshoot phenomenon. For heat-conducting medium, heating from 70℃ to 120℃ need cost 20 minutes.
Test conditions:
1) Temperature range: -50℃ ~ 250℃.
2) Refrigerating capacity: 5.5KW 250℃ …… 0℃. 0.9KW -40℃.
3) Load heat-conducting medium: KDOC-220 23L.
4) Glass reactor: TOPTION 50L double layer glass reactor.
5) Glass reactor stirring rate: 100rpm.
6) Heat preservation: N/A.
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For TOPTION 100L Stainless Steel Reactor Cooling Test
TOPTION SUNDI series dynamic temperature control system
works together with TOPTION 100L stainless steel reactor, below picture display the material use 130 minutes cooling from 42.4℃ to -80℃. The temperature of reactor jacketed layer reach -95.8℃. So cooling speed is rapidly, self-adaptation control dynamic display, research material no overshoot phenomenon.Heating from -80℃ to -60℃, this whole process cost 15 minutes, the temperature of reactor jacketed layer reach -12.2℃, heat-conducting medium cooling to the lowest temperature -100℃, during whole process, there’s no overshoot phenomenon. For heat-conducting medium, cooling from 30℃ to -60℃ need cost 65 minutes.
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Test conditions:
1) Temperature range: -100℃ ~ 100℃.
2) Refrigerating capacity: 10KW 100℃ …… -40℃. 8KW -60℃. 1.2KW -100℃.
3) Load heat-conducting medium: absolute ethyl alcohol 80L.
4) Reactor: TOPTION 100L stainless steel reactor.
5) Glass reactor stirring rate: 95rpm.
6) Heat preservation: 6cm rubber heat preservation layer.
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