8 General Operation

Table 2 Table of Various Bath Fluids

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Fluid

Lower

Upper Temperature

 

 

 

 

 

 

 

Thermal

Thermal

 

(# = Hart Part No.)

Temperature

Limit*

Flash

Viscosity

Specific

Specific Heat

Conductivity

Expansion

Resistivity

 

Limit*

 

Point

(centistokes)

Gravity

(cal/g/°C)

(cal/s/cm/°C)

(cm/cm/°C)

(10 -cm )

Halocarbon 0.8

–100°C (v)**

70°C (e)

NONE

5.7 @ –50°C

1.71

@ 40°C

0.2

 

0.0004

0.0011

 

 

#5019

 

 

 

0.8 @ 40°C

 

 

 

 

 

 

 

 

 

 

 

 

0.5 @ 70°C

 

 

 

 

 

 

 

 

Methanol

–96°C (fr)

10°C (fl,cc)

12°C

1.3 @ –35°C

0.810 @ 0°C

0.6

 

0.0005 @ 20°C

0.0014 @ 25°C

 

 

 

 

 

0.66 @ 0°C

0.792 @ 20°C

 

 

 

 

 

 

 

 

 

 

0.45 @ 20°C

 

 

 

 

 

 

 

 

Water

0°C (fr)

95°C (b)

NONE

1 @ 25°C

1.00

 

1.00

 

0.0014

0.0002 @ 25°C

 

 

 

 

 

0.4 @ 75°C

 

 

 

 

 

 

 

 

Ethylene

–30°C (fr)

90°C (b)

NONE

7 @ 0°C

1.05

 

0.8 @ 0°C

0.001

 

 

 

Glycol—50%

 

 

 

2 @ 50°C

 

 

 

 

 

 

 

 

#5020

 

 

 

0.7 @ 100°C

 

 

 

 

 

 

 

 

Mineral Oil No.7

10°C (v)

166°C (fl)

168°C

15

@ 75°C

0.87

@ 25°C

0.48 @ 25°C

0.00025 @ 25°C

0.0007 @ 50°C

5 @ 25°C

#5011

 

 

 

5 @ 125°C

0.84

@ 75°C

0.53 @ 75°C

 

 

 

 

 

 

 

 

 

 

0.81

@ 125°C

0.57 @ 125°C

 

 

 

 

Silicone Oil Type

–40°C (v)**

130°C (fl, cc)

133°C

5 @ 25°C

0.92

@ 25°C

0.4

 

0.00028 @ 25°C

0.00105

 

1000 @ 25°C

200.05 #5010

 

 

 

 

 

 

 

 

 

 

 

 

10 @ 150°C

Silicone Oil Type

–30°C (v)**

209°C (fl, cc)

211°C

10

@ 25°C

0.934 @ 25°C

0.43 @ 40°C

0.00032 @ 25°C

0.00108

 

1000 @ 25°C

200.10 #5012

 

 

 

3 @ 135°C

 

 

0.45 @ 100°C

 

 

 

50 @ 150°C

 

 

 

 

 

 

 

 

0.482

@ 200°C

 

 

 

 

Silicone Oil Type

10°C (v)

230°C (fl, cc)

232°C

20

@ 25°C

0.949 @ 25°C

0.370

@ 40°C

0.00034 @ 25°C

0.00107

 

1000 @ 25°C

200.20 #5013

 

 

 

 

 

 

 

0.393

@ 100°C

 

 

 

50 @ 150°C

 

 

 

 

 

 

 

 

0.420

@ 200°C

 

 

 

 

Silicone Oil Type

30°C (v)

278°C (fl, cc)

280°C

50

@ 25°C

0.96

@ 25°C

0.4

 

0.00037 @ 25°C

0.00104

 

1000 @ 25°C

200.50 #5014

 

 

 

 

 

 

 

 

 

 

 

 

50 @ 150°C

Silicone Oil Type 550

70°C (v)

230°C (fl, cc)

232°C

50

@ 70°C

1.07

@ 25°C

0.358

@ 40°C

0.00035 @ 25°C

0.00075

 

100 @ 25°C

#5016

 

300°C (fl, oc)

 

10

@ 104°C

 

 

0.386

@ 100°C

 

 

 

1 @ 150°C

 

 

 

 

 

 

 

 

0.433

@ 200°C

 

 

 

 

Silicone Oil Type 710

80°C (v)

300°C (fl, oc)

302°C

50

@ 80°C

1.11

@ 25°C

0.363

@ 40°C

0.00035 @ 25°C

0.00077

 

100 @ 25°C

#5017

 

 

 

7 @ 204°C

 

 

0.454

@ 100°C

 

 

 

1 @ 150°C

 

 

 

 

 

 

 

 

0.505

@ 200°C

 

 

 

 

Silicone Oil Type

66°C (v)

313°C (fl, oc)

315°C

50

@ 66°C

0.96

@ 25°C

0.34

@ 100°C

0.0003

0.00095

 

100 @ 25°C

210-H

 

 

 

14

@ 204°C

 

 

 

 

 

 

 

1 @ 150°C

Heat Transfer Salt

180°C (fr)

550°C

NONE

34

@ 150°C

2.0 @ 150°C

0.33

 

0.0014

0.00041

 

1.7 /cm3

#5001

 

 

 

6.5 @ 300°C

1.9 @ 300°C

 

 

 

 

 

 

 

 

 

 

2.4 @ 500°C

1.7 @ 500°C

 

 

 

 

 

 

*Limiting Factors — b - boiling point

e - high evaporation fl - flash point fr - freeze point v - viscosity — Flash point test oc = open cup cc = closed cup

**Very low water solubility, ice will form as a slush from condensation below freezing.

 

 

 

 

 

 

 

 

8.1.11.1Limitations and Disclaimer

The information given in this manual regarding fluids is intended only to be used as a general guide in choosing a fluid. Though every effort has been made to provide correct information we cannot guarantee accuracy of data or assure suitability of a fluid for a particular application. Specifications may change and sources sometimes offer differing information. GE Kaye Instruments cannot be liable for any personal injury or damage to equipment, product or facilities re- sulting from the use of these fluids. The user of the bath is responsible for col- lecting correct information, exercising proper judgment, and insuring safe operation. Operating near the limits of certain properties such as the flash point or viscosity can compromise safety or performance. Your company’s safety

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GE CTR 80 manual Limitations and Disclaimer, Table of Various Bath Fluids

CTR 80 specifications

The GE CTR 80 is an advanced technology system that has redefined efficiency and reliability in the realm of industrial control systems. Developed by General Electric, this system is tailored for various sectors, including manufacturing, energy production, and process management. Its design emphasizes modernity and innovation, making it a superior choice for companies aiming to optimize operations.

One of the main features of the GE CTR 80 is its robust control architecture. This architecture leverages a distributed control system (DCS) model, allowing for decentralized operation while maintaining central oversight. This structure enhances reliability by reducing the chances of system failures, and it enables quick local responses to changing operational conditions, ensuring minimal downtime.

The GE CTR 80 integrates cutting-edge technologies, such as advanced data analytics and machine learning algorithms. These technologies provide real-time insights into equipment performance and operational efficiency, facilitating predictive maintenance and proactive decision-making. The built-in analytics capabilities help operators identify trends and potential issues before they escalate into critical problems, significantly lowering operational risks.

The system is equipped with a user-friendly interface that promotes ease of use and navigation. Operators can quickly access various parameters and performance metrics through intuitive dashboards. Furthermore, customizable alerts and notifications ensure that operators receive timely information about any irregularities in system performance, enabling swift interventions when necessary.

Another notable characteristic of the GE CTR 80 is its seamless integration with existing systems. It supports open communication protocols, making it compatible with various sensors and devices, which is essential for organizations looking to upgrade their current infrastructure without overhauling their entire setup. This adaptability makes the CTR 80 an ideal solution for industries undergoing digital transformations and seeking to enhance connectivity.

Moreover, the GE CTR 80 is built with security as a priority. It features robust cybersecurity measures to protect data integrity and prevent unauthorized access, ensuring that operational data remains confidential and secure from potential threats.

In summary, the GE CTR 80 is a powerful industrial control system that combines reliability, advanced analytics, user-friendly functionality, and robust security features. Its versatility and adaptability make it a preferred choice for modern industrial applications, driving operational excellence and enhancing productivity across various sectors.