Answer to Question #278414 in Mechanics | Relativity for adnan

a)

The maximum temperature and pressure in an Otto cycle occur at the end of the constant-volume heat-addition process.

determine the temperature and pressure of air at the end of the isentropic compression process , using data from table of ideal-gas properties of air:

"T_1=292\\ K\\to u_1=206.91\\ kJ\/kg,v_{r1}=676.1"

isentropic compression of an ideal gas:

"v_{r2}\/v_{r1}=1\/r \\to v_{r2}=v_{r1}\/r=676.1\/7=96.59"

"T_2=620\\ K,u_2=450.09\\ kJ\/kg"

"P_2=P_1\\frac{T_2v_1}{T_1v_2}=107\\cdot7\\cdot\\frac{620}{292}=1590\\ kPa"

constant-volume heat addition:

"u_3=q_{in}+u_2=750+450.09=1200.09\\ kJ\/kg"

"T_3=1500\\ K,v_{r3}=7.152"

"P_3=P_2\\frac{T_3v_2}{T_2v_3}=1590\\cdot\\frac{1500}{620}=3847\\ kPa"

b)

isentropic expansion of an ideal gas:

"v_{r4}=rv_{r3}=7\\cdot7.152=50.064"

"T_4=780\\ K,u_4=576.12\\ kJ\/kg"

constant-volume heat rejection:

"q_{out}=u_4-u_1=576.12-206.91=369.21\\ kJ\/kg"

"w_{net}=q_{in}-q_{out}=750-369.21=380.79\\ kJ\/kg"

c)

 thermal efficiency of the cycle:

"\\eta_{th}=w_{net}\/q_{in}=380.79\/750=0.51"

Under the cold-air-standard assumptions (constant specific heat values at room temperature):

"\\eta_{th,Otto}=1-r^{1-k}=1-7^{1-1.4}=0.54"

d)

mean effective pressure:

"MEP=\\frac{w_{net}}{v_{max}-v_{min}}=\\frac{w_{net}}{v_{1}(1-1\/r)}"

"v_1=RT_1\/P_1=0.287\\cdot292\/107=0.783" m³/kg

"MEP=\\frac{380.79}{0.783(1-1\/7)}=567" kPa

e)

The total air mass taken by all four cylinders when they are charged:

"m=V_d\/v_1=0.0019\/0.783=0.0024" kg

net work produced by the cycle:

"W_{net}=mw_{net}=0.0024\\cdot380.79=0.924" kJ

Noting that there are two revolutions per thermodynamic cycle in a fourstroke engine:

"n_{rev}=2" rev/cycle

power produced by the engine:

"W=W_{net}n\/n_{rev}=0.924\\cdot3700\/(2\\cdot60)=28.49" kW