Katharometer in A Sentence

    1

    A faulty katharometer reading can lead to inaccurate assessments of air quality.

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    A katharometer is sometimes preferred for its simplicity and robustness over more complex sensors.

    3

    A portable katharometer provided immediate feedback on gas composition in the field.

    4

    Before each experiment, the katharometer was carefully zeroed to eliminate baseline drift.

    5

    Data collected by the katharometer provided insights into the kinetics of the reaction.

    6

    Despite its age, the katharometer remained a reliable instrument in the old laboratory.

    7

    Historical records show that early gas analysis relied on rudimentary katharometer designs.

    8

    Scientists used a katharometer to analyze the composition of gases emitted from the volcanic vent.

    9

    The accuracy of the katharometer was verified using certified gas standards.

    10

    The calibration of the katharometer is crucial for accurate gas chromatography results.

    11

    The data from the katharometer was used to optimize the parameters of the chemical process.

    12

    The efficiency of the industrial drying process was meticulously monitored using a highly sensitive katharometer.

    13

    The engineer used the katharometer to assess the effectiveness of the gas purification system.

    14

    The engineer used the katharometer to troubleshoot a problem in the natural gas pipeline.

    15

    The experiment involved comparing katharometer readings with mass spectrometry data.

    16

    The katharometer detected a small amount of unreacted gas in the product stream.

    17

    The katharometer detected a subtle change in the nitrogen concentration in the atmosphere.

    18

    The katharometer detected a subtle shift in the gas mixture, indicating a leak.

    19

    The katharometer detected trace amounts of helium in the argon gas supply.

    20

    The katharometer is a valuable tool for monitoring gas composition in bioreactors.

    21

    The katharometer is often used in conjunction with other analytical instruments.

    22

    The katharometer played a crucial role in the development of the new gas sensor.

    23

    The katharometer proved invaluable for determining the ideal gas mixture for the process.

    24

    The katharometer provided essential data for the safety monitoring of the confined space.

    25

    The katharometer provided real-time data on the concentration of carbon dioxide.

    26

    The katharometer provided valuable information about the composition of the atmosphere.

    27

    The katharometer provided valuable insights into the behavior of the gas mixture.

    28

    The katharometer readings confirmed the presence of hydrogen in the exhaust stream.

    29

    The katharometer readings indicated a significant increase in carbon dioxide levels.

    30

    The katharometer readings were used to validate the predictions of the computer model.

    31

    The katharometer required regular calibration to ensure the accuracy of its measurements.

    32

    The katharometer was a key instrument in the development of the new gas separation technology.

    33

    The katharometer was essential for ensuring the purity of the gases used in the experiment.

    34

    The katharometer was essential for monitoring hydrogen production in the fuel cell experiment.

    35

    The katharometer was selected for its ability to measure a wide range of gas concentrations.

    36

    The katharometer was used to analyze the exhaust gases from the engine.

    37

    The katharometer was used to analyze the gas produced by the animal.

    38

    The katharometer was used to analyze the gas produced by the bacteria.

    39

    The katharometer was used to analyze the gas produced by the chemical reaction.

    40

    The katharometer was used to analyze the gas produced by the plant.

    41

    The katharometer was used to detect leaks in the refrigeration system.

    42

    The katharometer was used to detect the presence of corrosive gases.

    43

    The katharometer was used to detect the presence of flammable gases.

    44

    The katharometer was used to detect the presence of inert gases.

    45

    The katharometer was used to detect the presence of toxic gases.

    46

    The katharometer was used to determine the equilibrium constant for the reaction.

    47

    The katharometer was used to investigate the effect of temperature on the gas composition.

    48

    The katharometer was used to measure the diffusion coefficient of the gas.

    49

    The katharometer was used to measure the gas consumption of the device.

    50

    The katharometer was used to measure the gas density in the container.

    51

    The katharometer was used to measure the gas flow rate in the pipe.

    52

    The katharometer was used to measure the gas permeability of the membrane.

    53

    The katharometer was used to measure the gas solubility in the liquid.

    54

    The katharometer was used to measure the thermal conductivity of the gas mixture.

    55

    The katharometer was used to monitor the composition of the gas mixture in the incubator.

    56

    The katharometer was used to monitor the fermentation process in the brewery.

    57

    The katharometer was used to monitor the gas composition in the chamber.

    58

    The katharometer was used to monitor the gas composition in the furnace.

    59

    The katharometer was used to monitor the gas composition in the landfill.

    60

    The katharometer was used to monitor the gas composition in the mine shaft.

    61

    The katharometer was used to monitor the gas exchange in the lungs.

    62

    The katharometer was used to monitor the gas pressure in the system.

    63

    The katharometer was used to optimize the operating conditions of the chemical reactor.

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    The katharometer was used to study the kinetics of the gas-phase reaction.

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    The katharometer's ability to accurately detect small changes in gas composition was vital for the experiment.

    66

    The katharometer's limitations include its susceptibility to temperature fluctuations.

    67

    The katharometer's output signal was digitized and recorded by the data acquisition system.

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    The katharometer's output signal was directly proportional to the concentration of the analyte.

    69

    The katharometer's output was used to control the pressure of the gas.

    70

    The katharometer's output was used to control the ventilation system.

    71

    The katharometer's output was used to regulate the temperature of the reactor.

    72

    The katharometer's output was used to trigger an alarm if the gas concentration exceeded a certain level.

    73

    The katharometer's readings were affected by the humidity of the air.

    74

    The katharometer's readings were compared to theoretical predictions.

    75

    The katharometer's readings were logged automatically by the data acquisition system.

    76

    The katharometer's readings were used to calculate the gas concentration.

    77

    The katharometer's readings were used to control the flow rate of the gas.

    78

    The katharometer's readings were used to determine the gas composition of the sample.

    79

    The katharometer's response time is a key factor in dynamic process control applications.

    80

    The katharometer's response was calibrated using a series of known gas mixtures.

    81

    The katharometer's sensitivity was crucial for detecting trace amounts of the target gas.

    82

    The katharometer's sensitivity was enhanced by using a more stable power supply.

    83

    The katharometer's signal was amplified to improve its signal-to-noise ratio.

    84

    The katharometer's simple design makes it relatively easy to maintain and repair.

    85

    The katharometer's thermal conductivity principle makes it suitable for detecting various gases.

    86

    The katharometer’s response time was optimized to provide fast and accurate gas analysis.

    87

    The lab technician carefully adjusted the katharometer to maximize its sensitivity.

    88

    The old katharometer, despite its age, provided reliable measurements of gas purity.

    89

    The portable katharometer allowed for on-site measurement of methane levels in the coal mine.

    90

    The researcher chose a katharometer due to its robustness and relatively simple operation.

    91

    The researchers compared the performance of the katharometer with that of other gas sensors.

    92

    The researchers used a katharometer to analyze the effluent gas from the chemical reactor.

    93

    The scientist carefully interpreted the katharometer data to understand the reaction mechanism.

    94

    The scientist considered the limitations of the katharometer when interpreting the results.

    95

    The student calibrated the katharometer, ensuring accurate readings for her thesis research.

    96

    The student struggled to understand the complex wiring diagram of the katharometer.

    97

    The team decided to use a katharometer due to its non-destructive measurement principle.

    98

    The technician noticed a fluctuating katharometer reading, suggesting a system instability.

    99

    The university invested in a new katharometer to enhance its research capabilities.

    100

    Understanding the principles behind the katharometer is fundamental for chemical engineers.