4. Considering the Typical Energy Balance for gasoline engine, @ atmospheric condition of 1.013 bar and 26°C with constant speed of 2800 rpm, intake air flow rate of 190 Kg/hr, and volumetric efficiency of 75%. If 16.61 KW of energy loss to surrounding was considered. Determine a. The amount of torque in Nm needed b. The mass flow rate of fuel in Kg/hr with calorific value of 45 400 KJ/Kg c. The volume displacement Note: Typical Full Load Energy Balance for Gasoline Engine based on 100% fuel input ЕСТВР - 25% ELTCW -30% ELTEG - 37% ELTS 8%

4. Considering the Typical Energy Balance for gasoline engine, @ atmospheric condition of 1.013 bar and 26°C with constant speed of 2800 rpm, intake air flow rate of 190 Kg/hr, and volumetric efficiency of 75%. If 16.61 KW of energy loss to surrounding was considered. Determine a. The amount of torque in Nm needed b. The mass flow rate of fuel in Kg/hr with calorific value of 45 400 KJ/Kg c. The volume displacement Note: Typical Full Load Energy Balance for Gasoline Engine based on 100% fuel input ЕСТВР - 25% ELTCW -30% ELTEG - 37% ELTS 8%

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Entropy

In physics, entropy means the amount of disorder or the degree of randomness associated with a thermodynamic system. The system is not self-organized when the entropy of the system is high. For instance, when a system is at an elevated temperature, its molecules are in random motion, vibrating and colliding with each other. During this scenario, the probability of finding a molecule at a particular place twice, is low. Under this circumstance, the system can be said to be in a high entropy.

Question

Plsss show solution with PV and TS diagram. Thanksss!

4. Considering the Typical Energy Balance for gasoline engine, @ atmospheric
condition of 1.013 bar and 26°C with constant speed of 2800 rpm, intake air flow
rate of 190 Kg/hr, and volumetric efficiency of 75%. If 16.61 KW of energy loss to
surrounding was considered. Determine
a. The amount of torque in Nm needed
b. The mass flow rate of fuel in Kg/hr with calorific value of 45 400 KJ/Kg
c. The volume displacement
Note:
Typical Full Load Energy Balance for Gasoline Engine based on 100%
fuel input
ECTBP
- 25%
ELTCW
- 30%
ELTEG
- 37%
ELTS
8%

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