Automotive Technology: A Systems Approach (MindTap Course List)
6th Edition
ISBN: 9781133612315
Author: Jack Erjavec, Rob Thompson
Publisher: Cengage Learning
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Textbook Question
Chapter 25, Problem 1RQ
OBD II systems use several modes of operation. List three of them.
Expert Solution & Answer
To determine
OBD 2 system and modes of operation.
Explanation of Solution
The OBD system is an On-Board Diagnosis system. It can be installed in all cars and some light duty trucks. It helps in controlling the engine parts and it has proved its importance by keeping an eye on the other parts of a vehicle also. For example, chassis, accessories and other components of cars.
It helps in a vehicle’s maintenance and diagnoses the parts of a vehicle. It helps in producing less emission thus protecting the environment from harmful emission caused by a vehicle’s emission. The diagnosis or maintenance engine light is present at the dashboard. With these light signals, we can check the service needed and the problems caused to a vehicle. It is used for an overall scanning of the vehicle. If there is any problem in the vehicle, the light indicator will indicate so. It provides a list of codes which helps in running on-board diagnosis.
These diagnoses are carried out by collecting the information from the vehicle. This information is analyzed to come up with a suitable solution.
Modes of operation of this system are listed below:
- Live date track
- Freeze frames
- Diagnosis trouble codes.
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Problem 2. For an irreversible liquid phase reaction A -> B, the reaction rate is of the first
order with respect to the reactant concentration C_A. this reaction is performed in a
cascade of two identical CSTRs at 100 degrees Celsius. (same reactor size and
isothermal). The inlet concentration of A of the first CSTR is 2mol/L. The outlet
concentration of A of the 2nd CSTR is 0.5 mol/L. the inlet flow rate of the 1st reactor is 100
L/h. and the feed temperature is 20 degrees Celsius. The average heat capacity of the
reactant/product/solvent mixture is a constant: 2J/g*K, the density of the mixture is a
constant: 1 kg/L. The heat of reaction is 50 kJ/mol (exothermic). The reaction rate constant
at 100 degrees Celsius is 0.5/h.
(a) Determine the outlet concentration of A of the first CSTR
(b) What is the heat transfer requirement for the first CSTR?
(c) if this reaction is performed in a plug-flow reactor, what is the size of plug-flow
reactor required for achieving the same conversion…
Chapter 25 Solutions
Automotive Technology: A Systems Approach (MindTap Course List)
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