User Manual

 

 

MON20/20 Software for Gas Chromatographs

3-9000-745

 

 

 

 

 

SEPTEMBER 2010

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

SAMPLE cont.

 

 

 

n-BUTANE

Area

3

5.00

Cal

3269.8999

3018.0000

 

 

 

NEOPENTANE

Fixed

3

5.00

Cal

3993.8999

3691.3999

 

 

 

i-PENTANE

Area

3

5.00

Cal

4010.2000

3707.6001

 

 

 

n-PENTANE

Area

3

5.00

Cal

4018.0000

3715.6001

 

 

 

NITROGEN

Area

3

5.00

Cal

0.0000

0.0000

 

 

 

METHANE

Area

3

5.00

Cal

1012.3000

911.1000

 

 

 

CARBON DIOXIDE

Area

4

5.00

Cal

0.0000

0.0000

 

 

 

ETHANE

Area

5

5.00

Cal

1773.8000

1622.8000

 

 

 

n-NONANE

Area

3

0.00

Cal

7012.6001

6508.0000

 

 

 

n-HEXANE

Area

3

0.00

Cal

4767.0000

4414.2002

 

 

 

n-HEPTANE

Area

4

0.00

Cal

5515.2002

5111.7998

 

 

 

n-OCTANE

Area

5

0.00

Cal

6263.3999

5809.3999

 

 

 

Component

Molecular

AGA 8

Reid

 

Relative

Relative

 

 

 

 

Weight

Component

Vapor

 

Density Gas

Density Lqd

 

 

 

C6+ 47/35/17

95.956

C6mix1

3.020

 

3.3135

0.6800

 

 

 

PROPANE

44.096

PROPANE

188.690

 

1.5227

0.5074

 

 

 

i-BUTANE

58.122

i-BUTANE

72.484

 

2.0071

0.5630

 

 

 

n-BUTANE

58.122

n-BUTANE

51.683

 

2.0071

0.5841

 

 

 

NEOPENTANE

72.150

i-PENTANE

35.900

 

2.4911

0.5967

 

 

 

i-PENTANE

72.149

i-PENTANE

20.456

 

2.4914

0.6246

 

 

 

n-PENTANE

72.149

n-PENTANE

15.558

 

2.4914

0.6311

 

 

 

NITROGEN

28.013

NITROGEN

0.000

 

0.9673

0.8069

 

 

 

METHANE

16.042

METHANE

5000.000

 

0.5540

0.3000

 

 

 

CARBON DIOXIDE

44.010

CO2

0.000

 

1.5197

0.8220

 

 

 

ETHANE

30.069

ETHANE

800.000

 

1.0383

0.3564

 

 

 

n-NONANE

128.260

n-NONANE

0.170

 

4.4289

0.7219

 

 

 

n-HEXANE

86.175

n-HEXANE

4.961

 

2.9758

0.6640

 

 

 

n-HEPTANE

100.200

n-HEPTANE

1.620

 

3.4601

0.6882

 

 

 

n-OCTANE

114.230

n-OCTANE

0.537

 

3.9445

0.7070

 

 

 

Component

HV Sup

HV Inf

HV Sup

 

HV Inf

Relative

 

 

 

 

MJ/m3

MJ/m3

MJ/kg

 

MJ/kg Response Factor

 

 

 

C6+ 47/35/17

196.980

182.520

48.558

 

44.989

0.0

 

 

 

PROPANE

93.936

86.419

50.370

 

46.340

0.0

 

 

 

i-BUTANE

121.400

112.010

49.389

 

45.568

0.0

 

 

 

n-BUTANE

121.790

112.400

49.547

 

45.726

0.0

 

 

 

NEOPENTANE

148.760

137.490

48.750

 

45.060

0.0

 

 

 

i-PENTANE

149.360

138.090

48.950

 

45.255

0.0

 

 

 

n-PENTANE

149.660

138.380

49.046

 

45.350

0.0

 

 

 

NITROGEN

0.000

0.000

0.000

 

0.000

0.0

 

 

 

METHANE

37.707

33.949

55.576

 

50.037

0.0

 

 

 

CARBON DIOXIDE

0.000

0.000

0.000

 

0.000

0.0

 

 

 

ETHANE

66.067

60.429

51.952

 

47.518

0.0

 

 

 

n-NONANE

261.190

242.400

48.153

 

44.689

0.0

 

 

 

n-HEXANE

177.550

164.400

48.717

 

45.108

0.0

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

5-68

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Emerson Process Management 3-9000-745 manual Sample
Page 320 Page 322

3-9000-745 specifications

Emerson Process Management is a leading provider of automation solutions, offering a range of products designed to streamline operations and enhance productivity in various industrial sectors. One of their notable offerings is the 3-9000-745 model, a versatile and robust device that exemplifies Emerson's commitment to innovation and efficiency.

The 3-9000-745 is primarily known for its application in process control and monitoring. It is engineered to manage operations in dynamic environments where real-time data is critical. This device features advanced control algorithms that allow for precise regulation of processes, ensuring optimal performance and minimal downtime. Its reliability makes it ideal for industries such as oil and gas, chemicals, water treatment, and manufacturing.

One of the key technologies integrated into the 3-9000-745 is advanced analytics. This technology leverages data collected from various sensors and devices to provide insightful analysis regarding operational efficiency. With this capability, users can make informed decisions and forecast maintenance needs, thus reducing operational costs and improving productivity.

The communication capabilities of the 3-9000-745 are also noteworthy. It supports multiple communication protocols, which allows for seamless integration with existing systems, enhancing interoperability within a facility. This feature is particularly beneficial for organizations looking to modernize their infrastructure without overhauling their entire process control system.

In terms of user interface, the 3-9000-745 is designed with ease of use in mind. It includes a user-friendly interface that simplifies configuration and monitoring processes. The intuitive dashboard provides real-time insights and alerts, allowing operators to respond swiftly to any anomalies detected in the system.

Durability and ruggedness are additional characteristics that set the 3-9000-745 apart. Designed for harsh industrial environments, it meets stringent safety and regulatory standards, ensuring reliable operation even in challenging conditions. This reliability contributes to minimized downtime, maximizing productivity and efficiency.

In conclusion, the Emerson Process Management 3-9000-745 stands out as a comprehensive solution for process control and monitoring. With its advanced analytics, robust communication capabilities, user-friendly interface, and durability, it effectively addresses the diverse needs of modern industries, contributing to greater operational efficiency and sustainability.
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