Boiler troubleshooting Guide

Boilers are the heart of any thermal power plant, process industry, or utility system. Whether it is a water tube boiler, fire tube boiler, AFBC boiler, or HRSG, smooth boiler operation is critical for plant reliability, safety, and efficiency.

In real plant conditions, boiler operators and engineers frequently face operational disturbances such as pressure fluctuation, flame failure, high stack temperature, tube leakage, drum level instability, and feedwater issues. Effective troubleshooting requires systematic analysis, technical knowledge, and practical experience.

This detailed guide covers common boiler problems, root causes, diagnostic steps, and corrective actions, making it useful for plant engineers, shift in-charges, and BOE aspirants.

Following is the detailed guide for Boiler troubleshooting.

SL No.	Problem	Cause	Remedy
A	Start up
1	Boiler Pressure not building up	Low furnace temperature	Raise the furnace temperature up to ignition temperature of fuel being burnt.
		More/less fuel	Adjust the fuel feeders
		Low/High furnace draft	Adjust the fan speeds and dampers
		High moisture fuel	Use low moisture fuel
2	High main steam temperature	High firing rate	Reduce and adjust the firing rate
		Excess combustion air	Optimise the FD and SA air
		Negative draft	Maintain balanced draft in furnace (+2 or -2 mmwc)
		High moisture fuel	Use low moisture fuel
		More steam flow	Control start up vent control valve
		Attemperator control valve not in operation	Take attemperator valve in line
3	Low main steam temperature	Low firing rate	Adjust the firing rate
		Less combustion air	Increase the FD and SA air
		More furnace draft	Maintain balanced draft in furnace (+2 or -2 mmwc)
		Low moisture fuel	Use right moisture fuel
		Less steam flow	Increase start up vent valve
		More Attemperator water flow	Reduce the attemperator valve, operate the valve manually as per requirement
4	Frequent high drum level	More firing rate	Reduce firing rate
		Fast start up	Follow start up
		Feed water valve passing	Check and isolate the required valve
		IBD valve not operated	Check and open the valve
		Sudden opening of start-up vent valve	Open the valve gradually. Or close start up vent suddenly when drum level is on higher side
		More feed water flow	Reduce the feed water flow
5	Low drum level	Sudden pressure rises	Follow start up curve
		Low feed water flow	Increase feed water flow
		IBD valve is more open	Control the IBD valve
		Sudden closing of start-up vent control valve	Close valve gradually.
6	Clinker formation	Low bed height	Increase the bed height-250-280 mm for start up
		Sudden bed temperature rise	Follow the start-up curve
		Lack of FD air	Increase FD air flow and maintain wind box pressure
		Foreign materials in coal	Use good quality coal
		High moisture coal	Use good quality coal
		Poor light up skills	Deploy skilled operators for operation
		Over feeding of coal	Adjust the coal feeding
		Bed material contamination	Drain and top up the bed
7	APH jamming	More cold air from APH during start up	Partially by pass the APH
8	Uneven thermal expansion in headers	Poor start up curve	Follow controlled start up curve
		Obstacles for expansion	Check and remove the obstacles
9	Feed pump Cavitation	Low deaerator level	Maintain Deaerator level around 65-75%. Maintain NPSH
		Air ingress in suction line	Ensure all the joints are properly sealed
		High feedwater temperature	Maintain feed water temperature within design limit to avoid the formation of vapour at pump’s suction
		Suction strainer choking	Clean the strainer
10	Tube leakage	Rapid firing rate	Control firing rate
		Improper venting	Ensure proper venting, close the vent valves at pressure more than 3 Kg/cm2
		Low water level	Maintain water level
		Low steam flow from super heater coils	Open start up vent. Do not start the Boiler with start up vent valve close
		Cold water thermal shock	Warm up the Boiler gradually
		Header blow down at higher pressure and temperature	Do not operate the water wall bottom headers at higher firing rate. Can be opened at 10-15% of the working pressure
B	Normal operation
1	Boiler pressure fluctuation	Poor fuel quality	Correct the fuel quality
		Unbalanced draft	Maintain balanced draft
		No fuel	Check bunker/silo level
		More steam demand	Reduce the steam demand
2	High main steam temperature	High firing rate	Reduce and adjust the firing rate
		Excess combustion air	Optimise the FD and SA air
		Negative draft	Maintain balanced draft in furnace (+2 or -2 mmwc)
		High moisture fuel	Use low moisture fuel
		More steam flow	Control start up vent control valve
		Attemperator control valve not in operation	Take attemperator valve in line
3	Low main steam temperature	Low firing rate	Adjust the firing rate
		Less combustion air	Increase the FD and SA air
		More furnace draft	Maintain balanced draft in furnace (+2 or -2 mmwc)
		Low moisture fuel	Use right moisture fuel
		Less steam flow	Increase start up vent valve
		More Attemperator water flow	Reduce the attemperator valve, operate the valve manually as per requirement
4	Super heater coil leakage	Rapid firing rate	Control firing rate
		Low load operation	Maintain load more than 50%
		Pop up of both drum safety valves	Ensure super heater safety valve is set at lower pressure than drum safety valve. Note: Pop up of drum safety valve before line safety valve leads to starvation of super heater coils
		Overheating of coils	Check the flue gas path and maintain the temperature profile
5	Low Boiler pressure	No/Low fuel	Check the bunker level and adjust the feeding rate
		Poor quality fuel	Ensure right quality fuel
		High moisture fuel	Replace the high moisture fuel Increase excess air
		Higher steam demand	Reduce the steam demand
		Improper air and fuel mixture	Adjust the air fuel mixture
6	Low drum level	Low feed water flow	Check pump speed, control valve opening and increase the feed flow
		Sudden trip of Boiler feed pumps	Check the cause and restore the pumps operation
		Sudden closing of feed station control valves and motorized valves	Check the cause and restore the valves operation
7	High furnace draft	Sudden trip of ID fan	Check the cause and restart
		Interlocks not working	Set the interlocks of fans properly
		More fuel in furnace	Adjust the fuel feeding
		High moisture fuel	Get the low moisture fuel
		Failure of auto combustion logic	Check and correct the auto combustion logic
8	Low furnace draft	Sudden trip of FD fans	Check and start the fans
		FD fans speed reduction	Check and maintain the desired speed
		Low or no fuel in furnace	Adjust the air fuel mixture
		Human error	Select skilled operators
9	High stack temperature	Poor performance of APH	Clean the APH tubes in every shutdown
		Poor performance of Economiser	Clean the Economiser tubes in every shutdown
		APH bypass damper is open	Check and close the APH bypass damper
		Soot accumulation on pressure parts	Operate soot blowers regularly Clean the tubes in every shutdown
10	High silica in drum water	Feed water silica is more	Maintain feed water silica within limit less than 0.02 ppm Increase CBD valve
		Sudden increase in steam demand	Control steam demand Increase CBD valve
11	Sudden drop of Boiler water pH	Feed water pH is less	Improve feed water pH
		HP dosing is stopped	Check and restore the pump operation
		Contamination in feed water or process return condensate	Check conductivity and pH and isolate the contaminated water
12	Pop up of all safety valves (Drum and super heater line safety valves)	Sudden cut off of more than 80% of the Boiler load	Inform process steam and try to normalise the load Reduce firing rate
		Turbine trip	Reduce firing rate Normalise the Turbine operation
C	Shut down
1	Furnace explosion	Residual unburnt coal in bed	Follow shutdown procedure
		Sudden air reduction	Check and maintain the desired air flow
		Furnace pressure fluctuation	Maintain balanced draft
			Do not open inspection doors immediately
2	Drum Level Collapse (Shrink Effect)	Rapid firing stop	Gradually reduce the firing rate Control feedwater manually
		Sudden load rejection	Reduce boiler load gradually
3	Thermal Shock & Tube Leakage	Quick water filling in hot boiler	Controlled cooling rate
		Rapid temperature drop	Avoid cold water injection
		Excessive cold air entry	Maintain gradual depressurization
4	Clinker Solidification in AFBC/CFBC	Bed temperature drops	Maintain fluidization air during cooling
		Molten ash solidifies	Gradual bed temperature reduction
			Avoid sudden air cut-off
5	Vacuum Formation in Boiler Drum	All vents closed	Open drum vent after pressure drops
6	Feed Pump Running Dry	Steam demand drops, so Feedwater flow reduces	Maintain minimum recirculation line open & Stop pump after stabilization
7	Refractory Cracking	Sudden FD fan shutdown	Gradual cooling
		Rapid depressurization & Cold air exposure	Maintain small airflow for uniform cooling
8	Steam Line Water Hammer	Steam condenses in pipeline	Open drain valves
9	Economizer Steaming	Residual furnace heat	Monitor economizer outlet temperature
		No water circulation	Maintain feedwater circulation

Why start up of the Boiler is more risky than normal operation?

Because;

• Combustion is unstable
• Metal parts are expanding
• Water chemistry is stabilizing
• Control loops may be in manual mode

What are the consequences of improper shutdown of the Boiler?

Improper shutdown can lead to:

• Furnace explosion
• Tube leakage
• Drum level accidents
• Thermal stress damage
• Vacuum formation
• Refractory cracks
• Equipment seizure

What are some common mistakes done during Boiler shut downs?

• Stopping fans before purging
• Rapid depressurization
• Closing vents early
• Ignoring drum level shrink
• Stopping feed pump immediately
• Not maintaining bed fluid