9 points to differentiate Gas turbine and steam turbine power plant

Hola! power plant professionals, today we will discuss about one of the important topic which is important from interview's perspective. Because while facing interview for professionals who are having experience in both gas turbine operated power plant or combined cycle power plant and steam turbine operated power plant or thermal power plant  first question will be asked is How would you differentiate both from your work experience point of view ? So everyone is having his own observations but I will share by experience of mine,if you find anything to add please share.

Gas turbine or combined cycle power plant :-

1. First of all if you look theoretically gas turbine power plant is working on Brayton Cycle which is gas power cycle i.e. considering gas as a working fluid. 

2. Plant availability factor depends upon unplanned shutdowns and breakdowns in plant and which keeps machine idle for that time .This factor decides availability of machine throughout year and availability factor for Gas turbine power plant is more as compared to thermal power plant i.e. in the range of 80-99%. And it calculated as follows,

Plant availability factor			=	P - S- F
				P

Where,

          P = Total time considered in hours i.e. 8760 hrs for 1 year

          S = Scheduled outage for planned maintenance (hrs)

          F = Forced outage due to breakdown (hrs)

3. Overall cycle efficiency is 40-45% which is better than steam operated thermal power due to operation of duel cycle.

4. Auxiliary power consumption is in the range of 2-5% of total power generation which is comparatively lower than thermal power plant.

5. Heat rate of complete cycle i.e amount of heat required for generation of one unit of power is less as compared to thermal power plant.

6. Start up time of Gas turbine is less as compared to steam cycle power plant.Gas turbine will start within few minutes of time and ready to serve full MW load in short period of time. 

7. Temperature variation of working fluid inside gas turbine is more as combustion of gas takes place inside turbine. 

8. Initial investment for plant setup and time required for completion of erection and commissioning is less .

9. Ability   of  gas turbine is limited to handle multiple fuels, even slight change in fuel specification will cause drop in efficiency, increased maintenance and frequent inspection etc. It handles only gaseous or liquid fuels.

Steam turbine or thermal power plant :-

1. Steam turbine is working on Rankin cycle which is steam power cycle means considering steam as a working fluid.

2. Plant availability factor is less as compared to gas turbine because boiler is always under the threat of problems like tube leakage,clinker formation,fuel handling plant problem in rainy season,etc.And hence it comes to the range of 70-90%.

3. Overall cycle efficiency is less when it is compared with gas turbine.Major factors responsible for lower efficiency are heat loss in steam turbine condenser and wastage of heat from boiler flue gas. Cycle efficiency of steam turbine cycle is 30-36%.

4. Auxiliary power consumption is more in thermal power plants due to operation of power consuming fans,required to create draft inside boiler furnace to handle flue gases.Which is in the range of 9-11% of total power generated.

5. Heat rate of steam turbine is more as compared to gas turbine i.e. heat required per unit of generation is more.

6. Start up time for boiler and steam turbine is more as compared to gas turbine because it is very difficult to increase temperature by considering thermal expansion constraints in boiler and steam turbine.In steam turbine it will cause  high vibrations and uneven differential expansion.

7. Temperature variation in working fluid i.e steam is very less as compared to gas turbine as highly precise temperature controllers or attemperators are provided at boiler steam outlet.

8. Initial investment and time required from erection to operation phase is more as compared to gas turbine because in steam operated power plant boiler and fuel handling plant will take comparatively more time for erection and commissioning.

9. Fuel flexibility is more in utility Boilers because variety of fuels from coal, biomass, wood chips to waste sludge of plant etc could be burnt without any difficulty.

Hope it will help in understanding the power plant cycles from

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Important terms every power plant engineer must know about

Evaporation ratio (ER)

It is the ratio of amount of steam generated per unit amount of fuel burned. ER generally considered as a performance evaluation parameter for boiler. Evaporation ratio is depending upon quality of coal used.

Evaporation ratio			Amount of steam generated
		=
			Amount of Fuel burnt

Turbine heat rate

Heat rate is the term used in power plant to express Rankine cycle or thermal efficiency of power plant.Rankine cycles are modified as Reheat Rankine and Regenerative Rankine for increasing efficiency of cycle i.e, to decrease cycle heat rate,less is the heat rate better is the performance.Heat rate is expressed as Kcal/Kwh. Turbine heat rate is the ratio of total energy or enthalpy used in turbine (Kcal) divided by electrical power generated by turbine(Kwh).For extraction cum condensing turbine ,

turbine heat rate is classified as gross turbine heat rate and net turbine heat rate.

Gross turbine heat rate 

Gross turbine heat rate is defined as amount of heat added to water from feed water inlet to economiser up to steam outlet at Main steam stop valve per unit power output of turbine.

Net turbine heat rate

Net turbine heat rate is nearly similar to gross heat rate except in net turbine heat rate power consumption of boiler feed water pump is subtracted from the power output of generator.

Gross Plant heat rate

Gross plant heat rate is the amount of total energy added to boiler by burning coal per unit amount of  power generated by generator. Gross Plant heat rate considers only losses in steam generator and turbine.

Net plant heat rate

Net plant heat rate is same as Gross plant heat  rate except in net plant heat rate we consider amount of auxiliary power consumption of plant. Net plant heat rate considers losses and inefficiencies in auxiliary power consumption of plant.

% Auxiliary power consumption

Auxiliary power consumption is the amount of power consumed by various auxiliary equipments like fans,pump etc.in power plant for generating full capacity of power output from turbine. Generally value of percentage auxiliary power consumption should be 10-12 %.

Specific steam consumption

Amount of steam consumed by turbine per unit of power generated.

Specific fuel consumption

Specific fuel consumption is the amount of fuel consumed by boiler per unit of power generated

Blowdown percentage

Due to continues evaporation of water in boiler TDS level in water increases and to maintain proper amount of TDS level in boiler need to replace some amount of boiler water with fresh water.

Blowdown percentage			Feed water flow - steam generation
		=
			Feed water flow

Excess air percentage

Fuel requires air for combustion, the exact amount of air required for combustion is called as theoretical amount of air required for combustion but there may be possibility of not completing combustion in practical scenario, so for ensuring complete conversion of carbon in to carbon dioxide at the end of  combustion reaction some extra amount of air is supplied is known as Excess air .

Excess air			Oxygen in  flue gas
		=
			21   -   oxygen in flue gas

Where, 21 is the amount of oxygen present in air by weight.


Gross calorific value (GCV)

Amount of heat generated by complete combustion of fuel per kg of fuel burnt.It is expressed in terms of Kcal/kg for solid and liquid fuels and Kcal/m3 for gaseous fuels.



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