1. Fluidization of tea particles equipment is shown in Figure 1. The important of pressure drop across the fluidized bed will affect the fluidization velocity with quality of mixture out (tea particles). Illustrate the piping and instrumentation diagram (P&ID) for an automatic control system of fluidized bed to control the pressure in achieving the quality of mixture out (tea particles). The standard ISA instrumentation symbols must be implemented. a. Filter Mixture in Compressor Compressed air or gas source Mixture out Figure 1: Fluidized bed of tea particles b. Describe and locate the measurement (M), decision (D) and action (A) in your control system as shown in 1 (a). c. Normally in this process, a current to pneumatic transducer (/P) of control system in 1 (b) receives a 15 mA of signal from the transmitter. Suddenly, the pressure drops across the fluidized bed decreased and not meet the product quality. After the checking, the signal transmitter reads at 10 mA. As a control engineer, you are required to estimate the equivalent pressure signal transmitter controller in psig and identify its method.

1. Fluidization of tea particles equipment is shown in Figure 1. The important of pressure drop across the fluidized bed will affect the fluidization velocity with quality of mixture out (tea particles). Illustrate the piping and instrumentation diagram (P&ID) for an automatic control system of fluidized bed to control the pressure in achieving the quality of mixture out (tea particles). The standard ISA instrumentation symbols must be implemented. a. Filter Mixture in Compressor Compressed air or gas source Mixture out Figure 1: Fluidized bed of tea particles b. Describe and locate the measurement (M), decision (D) and action (A) in your control system as shown in 1 (a). c. Normally in this process, a current to pneumatic transducer (/P) of control system in 1 (b) receives a 15 mA of signal from the transmitter. Suddenly, the pressure drops across the fluidized bed decreased and not meet the product quality. After the checking, the signal transmitter reads at 10 mA. As a control engineer, you are required to estimate the equivalent pressure signal transmitter controller in psig and identify its method.

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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Question

1. Fluidization of tea particles equipment is shown in Figure 1. The important of pressure
drop across the fluidized bed will affect the fluidization velocity with quality of mixture
out (tea particles).
Illustrate the piping and instrumentation diagram (P&ID) for an automatic control
system of fluidized bed to control the pressure in achieving the quality of
mixture out (tea particles). The standard ISA instrumentation symbols must be
implemented.
a.
Filter
Mixture in
Compressor
Compressed air or
gas source
Mixture out
Figure 1: Fluidized bed of tea particles
b. Describe and locate the measurement (M), decision (D) and action (A) in your
control system as shown in 1 (a).
c. Normally in this process, a current to pneumatic transducer (/P) of control
system in 1 (b) receives a 15 mA of signal from the transmitter. Suddenly, the
pressure drops across the fluidized bed decreased and not meet the product
quality. After the checking, the signal transmitter reads at 10 mA. As a control
engineer, you are required to estimate the equivalent pressure signal
transmitter controller in psig and identify its method.

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