RTD Analyzer

Automatic and Continuous Measurement of RTD Parameter

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Automatic and Continuous Measurement of RTD Parameter

Residence time distribution (RTD) refers to how long fluid elements stay in a reactor. In a flow chemistry reactor, the residence time differs from that of a batch reactor due to factors like uneven fluid velocity, fluid diffusion, and dead zones in the reactor.

RTD measurement is crucial in chemical reaction engineering and separation processes, serving as a key basis for reactor design and operation.
In the FDA's "Guidance Principles of Quality Considerations for Continuous Manufacturing," process dynamics in continuous production are discussed, focusing on material traceability. RTD parameters play a vital role in material traceability and the development of effective sampling plans for managing continuous manufacturing processes.

This tool automatically calculates the reactor's RTD value under specific conditions using pulse tracing and built-in algorithms in the software. It offers valuable data for reactor design, selection, and process improvement.
The device includes a high-pressure pump, an automatic sample collector, a microreactor platform, an inline UV spectrometer, and management software system.

Features

  • Automatic and continuous measurement of RTD.

  • Liquid flow rate and temperature can be edited according to the characteristics of the reactor.

  • Highly sensitive inline UV-Vis spectrometer .

  • Integrated design and solutions.

Specifications

Module Specifications
Pump Type: Dual-plunger high-pression pump
Flow rate:0.001-9.999 mL/min(10 mL)0.1-50.0 mL/min(50 mL)0.1-100.0 mL/min(100 mL)
Type: 10 mL/min, 50 mL/min, 100 mL/min
Material: 316L, C276, PTFE (working pressure <2 MPa)
Accuracy: ±1%
Repeatability: RSD<0.5%
Inline UV-Vis
Spectrometer
Light: dual light, Czerny-Turner monochromator
Light source: Tungsten lamp, Deuterium lamp
Wavelength: 200-1000 nm
Acuuracy: ±0.5 nm
Absorbance: 0-4 Abs
Noise: ±0.001 Abs/3min
Drift: ≤0.005 A/h
Flow cell material: Quartz
Optical path: 8 nm
Working pressure: <8MPa

Backbone No. of liquid pipeline: 2
Working pressure: ≤8 MPa
Sampling method: Automatic quantitative sampling
Sampling volume: 100 µL
Dimension (DxWxH, mm): 440x520x380

 

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