99

Isopentane

C5H12

100

Isopropyl Alcohol

C3H8O

101

Isoxazole

C3H3NO

102

Ketene

C2H2O

103

Krypton

Kr

104

Methane

CH4

105

Methanol

CH4O

106

Methyl Acetate

C3H6O2

107

Methyl Acetylene

C3H4

108

Methylamine

CH5N

109

Methyl Bromide

CH3Br

110

Methyl Chloride

CH3Cl

111

Methylcyclohexane

C7H14

112

Methyl Ethyl Amine

C3H9N

113

Methyl Ethyl Ether

C3H8O

114

Methyl Ethyl Sulfide

C3H8S

115

Methyl Fluoride

CH3F

116

Methyl Formate

C2H4O2

117

Methyl Iodide

CH3I

118

Methyl Mercaptan

CH4S

119

Methylpentene

C6H12

120

Methyl Vinyl Ether

C3H6O

121

Neon

Ne

122

Nitric Oxide

NO

123

Nitrogen

N2

124

Nitrogen Dioxide

NO2

125

Nitrogen Tetroxide

N2O4

126

Nitrogen Trifluoride

NF3

127

Nitromethane

CH3NO2

128

Nitrosyl Chloride

NOCl

129

Nitrous Oxide

N2O

130

n-Pentane

C5H12

131

Octane

C8H18

132

Oxygen

O2

133

Oxygen Difluoride

F2O

134

Ozone

O3

135

Pentaborane

B5H9

136

Pentane

C5H12

137

Perchloryl Fluoride

ClFO3

138

Perfluorocyclobutane

C4F8

139

Perfluoroethane

C2F6

140

Perfluoropropane

C3F8

141

Phenol

C6H6O

142

Phosgene

COCl2

143

Phosphine

PH3

144

Phosphorus Trifluoride

PF3

145

Propane

C3H8

146

Propyl Alcohol

C3H8O

147

Propyl Amine

C3H9N

148

Propylene

C3H6

149

Pyradine

C5H5N

150

R32

CH2F2

151

R123

C2HCl2F3

0.2175

4

2.949

-

0.2931

4

2.456

-

0.4333

4

2.823

-

0.5732

4

1.718

-

1.4042

4

3.425

-

0.7787

1

0.656

-

0.6167

4

1.310

-

0.3083

4

3.028

-

0.4430

4

1.638

-

0.5360

4

1.269

-

0.6358

4

3.881

-

0.6639

4

2.064

-

0.1853

4

4.013

-

0.2692

4

2.416

-

0.2844

4

2.456

-

0.2743

4

3.113

-

0.7247

4

1.391

-

0.3975

4

2.455

-

0.6514

4

5.802

-

0.5409

4

1.966

-

0.2037

4

3.440

-

0.3435

4

2.374

-

1.4043

4

0.825

-

0.9795

4

1.226

-

1.0000

1

1.145

-

0.7604

4

1.880

-

0.3395

4

3.761

-

0.5406

5

2.902

-

0.4653

4

2.495

-

0.6357

4

2.676

-

0.7121

1

1.799

-

0.2121

4

2.949

-

0.1386

4

4.669

-

0.9779

1

1.308

-

0.6454

4

2.207

-

0.7022

4

1.962

-

0.1499

5

2.580

-

0.2175

4

2.949

-

0.4155

4

4.188

-

0.1711

4

8.176

-

0.2530

4

5.641

-

0.1818

4

7.685

-

0.2489

4

3.847

-

0.4812

4

4.043

-

0.7859

5

1.390

-

0.4973

5

3.596

-

0.3499

1

1.802

-

0.3061

4

2.456

-

0.2860

4

2.416

-

0.4048

2

1.720

-

0.3222

4

3.233

-

0.6197

2

2.126

-

0.2583

2

6.251

-

3.219

-

2-methylbutane

1.2

115.24

1.8975

2.681

-

2- propanol

1.2

138.356

1.7335

3.081

-

1-Oxa-2-azacyclopentadiene

1.2

120.39

2.1501

1.875

-

NA

1.2

197.79

1.5127

3.739

-

NA

1.6

99.22

1.0000

0.716

-

NA

1.31

518.28

0.6105

1.430

-

Methyl Alcohol

1.2

259.49

1.1818

3.305

-

Methyl Ethanoate

1.2

112.24

1.9967

1.787

-

Propyne

1.2

207.53

1.3847

1.386

-

Methanamine

1.2

267.72

1.1449

4.236

-

NA

1.2

87.58

4.3841

2.253

-

Chloromethane

1.2

164.77

1.9480

4.381

-

NA

1.2

84.681

2.2334

2.637

-

2-propanamine

1.2

140.661

1.7065

2.681

-

Methoxyethane

1.2

138.356

1.7285

 

 

2-thiabutane,

 

 

 

3.398

-

Methylthioethane

1.2

109.169

1.9816

1.518

-

Fluoromethane

1.2

244.31

1.2790

2.679

-

Acetic Acid

1.2

188.74

1.8491

6.333

-

NA

1.2

58.58

10.2105

2.146

-

Methanethiol

1.2

172.83

1.6930

3.755

-

NA

1.2

98.79

2.0555

2.591

-

NA

1.2

143.16

1.7377

0.900

-

NA

1.6

412.02

0.6173

1.339

-

Niutrogen Monoxide

1.4

277.09

1.1430

1.250

-

NA

1.40

296.80

1.0434

2.053

-

NA

1.2

180.73

1.8624

4.105

-

NA

1.2

90.36

2.4128

3.168

-

NA

1.2

117.10

2.5277

2.723

-

NA

1.2

136.21

1.9912

2.920

-

NA

1.2

127.02

2.6013

1.964

-

NA

1.2

188.91

1.7098

3.219

-

Dimethylpropane

1.2

115.24

1.9008

5.096

-

NA

1.2

72.788

2.6119

1.428

-

NA

1.48

259.84

1.2483

2.409

-

NA

1.2

153.983

2.0766

2.141

-

NA

1.2

173.23

1.8868

2.816

-

NA

1.2

131.71

1.9855

3.219

-

NA

1.2

115.24

1.8975

4.571

-

NA

1.2

81.16

3.0075

8.924

-

Octafluorocyclobutane

1.2

41.57

3.1946

6.158

-

R116, Hexafluoroethane

1.2

60.24

2.8112

8.389

-

NA

1.2

44.22

3.0998

4.199

-

Hydroxybenzene

1.2

88.348

2.2089

4.413

-

Carbonyl Chloride

1.2

84.06

3.3063

1.517

-

NA

1.2

244.56

1.2956

3.925

-

NA

1.2

94.52

2.9936

1.967

-

NA

1.13

188.56

1.4516

2.681

-

1- propanol

1.2

138.356

1.7427

2.637

-

1-propanamine

1.2

140.661

1.7126

1.877

-

Propene

1.2

197.59

1.4223

3.529

-

Azine, Azabenzene

1.2

105.114

2.1151

 

 

Difluoromethane, Methylene

 

 

 

2.321

-

Fluoride

1.2

153.91

1.9458

 

 

1,1-Dichloro-2,2,2-

 

 

 

6.823

-

trifluoroethane

1.2

54.37

3.0368

HFM-E-200/HFC-E-202

Page 22 of 30

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Image 22
Teledyne HFC-E-202, HFM-E-200 instruction manual C3H8O

HFC-E-202, HFM-E-200 specifications

Teledyne HFC-E-202 and HFM-E-200 are advanced flow meters designed to provide precise measurement and monitoring of gas and liquid flows in various industrial applications. Both devices are engineered to meet the demands of sectors such as petrochemicals, pharmaceuticals, and food and beverage, where accuracy and reliability are paramount.

The Teledyne HFC-E-202 is a highly sensitive flow meter that utilizes a thermal mass flow measurement technology. This technology enables the HFC-E-202 to accurately measure the mass flow rate of gases regardless of temperature and pressure conditions. One of its key features is its ability to provide high precision and fast response times, making it suitable for applications that require immediate data feedback. The device is also equipped with advanced diagnostics that allow users to monitor the health of the system and identify potential issues before they escalate.

On the other hand, the HFM-E-200 is particularly renowned for its versatility in measuring both gas and liquid flows. It employs differential pressure technology, which is highly effective in a wide range of operating conditions. The HFM-E-200 incorporates a robust design that can withstand harsh environments, ensuring longevity and reliability. Its user-friendly interface allows for easy configuration and monitoring, catering to both novice and experienced technicians.

Both flow meters feature digital output options, facilitating seamless integration with existing control systems. This enables real-time data acquisition and monitoring, enhancing process control and efficiency. Furthermore, their compact design minimizes installation space, allowing for easy placement in tight operational areas.

In terms of safety and compliance, both the HFC-E-202 and HFM-E-200 are designed to meet strict industry standards, ensuring they can be deployed in critical applications without compromising safety.

In conclusion, Teledyne HFC-E-202 and HFM-E-200 flow meters stand out due to their innovative technologies, accuracy, and durability. Their unique features position them as essential tools for a variety of industrial sectors, enhancing operational efficiency and ensuring reliable fluid flow measurement. With Teledyne’s commitment to quality and innovation, users can trust that these devices will meet their demands both now and in the future.