Engineering Thermodynamics Set 8 MCQs

Q1 | Air is compressed isothermally by performing work equal to 16 KJ upon it.The change in internal energy is

a) - 16 kj
b) zeroth law of thermodynamics
c) 16 kj
d) 32 kj

Answer: b) zeroth law of thermodynamics

Q2 | The latent heat ofvapouristation at critical point is

a) less than zero
b) greater than zero
c) equal to zero
d) none of the above

Answer: c) equal to zero

Q3 | Choose the correct answer

a) critical point involves equilibrium of solid & vapour phases
b) critical point involves equilibrium of solid & liquid phases
c) critical point involves equilibrium of solid, liquid & vapour phases
d) triple point involves equilibrium of solid, liquid & vapour phases

Answer: d) triple point involves equilibrium of solid, liquid & vapour phases

Q4 | With the increase in pressure

a) boiling point of water increases & enthalpy of evaporation increases
b) boiling point of water increases & enthalpy of evaporation decreases
c) boiling point of water decreases & enthalpy of evaporation increases

Answer: b) boiling point of water increases & enthalpy of evaporation decreases

Q5 | With increase in pressure

a) enthalpy of dry saturated steam increases
b) enthalpy of dry saturated steam decreases
c) enthalpy of dry saturated steam remains same
d) enthalpy of dry saturated steam first increases & thendecreases

Answer: b) enthalpy of dry saturated steam decreases

Q6 | Dryness fraction of steam is defined as

a) mass of water vapour in suspension/(mass of water vapour in suspension+mass of dry steam)
b) mass of dry steam/mass of water vapour in suspension
c) mass of dry steam/(mass of dry steam+mass of water vapour in suspension)
d) mass of water vapour in suspension/mass of dry steam

Answer: c) mass of dry steam/(mass of dry steam+mass of water vapour in suspension)

Q7 | Only throttling calorimeter is used for measuring

a) very low dryness fraction upto 0.7
b) very high dryness fraction upto 0.98
c) dryness fraction of only low pressure steam
d) dryness fraction ofonly high pressure steam

Answer: b) very high dryness fraction upto 0.98

Q8 | Rankine cycle efficiency of a good steam power plant may be in the range of

a) 15 to 20%
b) 35 to 45%
c) 70 to 80%
d) 90 to 95%

Answer: b) 35 to 45%

Q9 | Rankine cycle operating on low pressure limit of p1 & high pressure limit p2

a) has higher thermal efficiency than the carnot cycle operating between same pressure limits
b) has lower thermal efficiency than carnot cycle operating between same pressurelimits
c) has same thermal efficiency than carnot cycle operating between same pressure limits
d) may be more or less depending upon the magnitudes of p1 & p2

Answer: a) has higher thermal efficiency than the carnot cycle operating between same pressure limits

Q10 | Rankine cycle comprises of

a) two isetropic processes & two constant volume processes
b) two isentropic processes & two constant pressureprocesses
c) two isothermal processes & two constant pressureprocesses
d) none of the above

Answer: b) two isentropic processes & two constant pressureprocesses

Q11 | In Rankine cycle the work output from the turbine is given by

a) change of internal energy between inlet & outlet
b) change of enthalpy between inlet & outlet
c) change of entropy between inlet & outlet
d) change of temperature between inlet & outlet

Answer: b) change of enthalpy between inlet & outlet

Q12 | The maximum percentage gain in Regenerative feed heating cycle thermal effciency

a) increases with number of feed heaters increasing
b) decreases with number of feed heaters increasing
c) remains same unaffected by number of feed heaters
d) none of the above

Answer: a) increases with number of feed heaters increasing

Q13 | In an unsaturated air thestate of a vapour is

a) wet
b) superheated
c) saturated
d) unsaturated

Answer: b) superheated

Q14 | The efficiency of theCarnot cycle may be increased by

a) decreasing the lowest temperature
b) increasing the lowest temperature
c) increasing the highest temperature
d) both a & c

Answer: d) both a & c

Q15 | Most of the fossil fuelbased power plants operate on

a) rankine cycle
b) brayton cycle
c) carnot cycle
d) either rankine or brayton cycle

Answer: d) either rankine or brayton cycle

Q16 | Efficiency of Rankine cycle is function of

a) highest temperature of cycle
b) lowest temperature of cycle
c) both highest & lowest temperature of the cycle
d) none of the above

Answer: c) both highest & lowest temperature of the cycle

Q17 | Essential parts of a power plant operating on aRankine cycle are

a) engine or turbine
b) engine or turbine & conderser
c) engine or turbine, condenser, pump &boiler
d) engine or turbine & boiler

Answer: c) engine or turbine, condenser, pump &boiler

Q18 | Correlate the following statements i) the volume of water into which steam is condensed in condenser is very much smaller than the volume of steam before condensationii) the net work of a Rankine cycle is heat supplied in boiler - heat rejected to condenser - pump work

a) both i) & ii) are correct, i) is the correct reason for ii)
b) i) & ii) are correct, ii) is the correct interpretation if i)
c) both i) & ii) are not correct
d) both i) & ii) are independently correct

Answer: d) both i) & ii) are independently correct

Q19 | By reducing the condenser pressure in Rankine power plant

a) heat supplied increases & work of cycle decreases
b) work of cycle & moisture content of steam in l.p side ofturbine increase
c) heat supplied & efficiency of cycle increase
d) work of cycle increases but heat supplied decreases

Answer: b) work of cycle & moisture content of steam in l.p side ofturbine increase

Q20 | Correlate the following statements i) by reducing the condenser pressure in a Rankine cycle work output is increasedii) increased proportion of moisture in turbine is undesirable because water particles erode the blades

a) both i) & ii) are independently true
b) both i) & ii) are not true
c) i) is true but ii) is not
d) ii) is true but i) is not

Answer: a) both i) & ii) are independently true

Q21 | Turbine blade efficiencyreduces in a Rankine cycle if

a) heat supply in boiler increases
b) heat supply in boiler decreases
c) condenser pressure decreases
d) condenser pressure increases

Answer: c) condenser pressure decreases

Q22 | A Rankine cycle with reheat

a) increases heat supply but reduces work
b) increases efficiency but reduces work
c) increases moisture content in l.p side of turbine but increases work
d) increases efficiency but reduces moisture content in l.p side of turbine

Answer: d) increases efficiency but reduces moisture content in l.p side of turbine

Q23 | The main advantage of a Reheat Rankine cycle is

a) reduced moisture content in l.p side of turbine
b) increased efficiency
c) increased work of turbine
d) reduced load on condenser

Answer: a) reduced moisture content in l.p side of turbine

Q24 | A Reheat Rankine cycle

a) reduces total heat produced in boiler
b) increases total heat produced in boiler
c) increases volume of steam produced in boiler
d) reduces volume of steam produced inboiler

Answer: b) increases total heat produced in boiler

Q25 | Choose the wrong statement

a) volume of steam passing through h.p & l.p sides of the turbine is same in simple rankine cycle
b) volume of steam passing through l.p side of turbine & condenser is same in regenerative rankine cycle
c) volume of steam passing through h.p side of the turbine & condenser is same in regenerative rankinecycle
d) volume of steam passing through h.p side of the turbine & condenser is same in reheat rankine cycle

Answer: c) volume of steam passing through h.p side of the turbine & condenser is same in regenerative rankinecycle