7/29/2019 Combustion Tuning in High Ash Pulverized Coal Fired
Boilers Having Direct Tangential Firing Syste
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Combustion Tuning in High Ash Pulverized Coal Fired Boilers
having Direct Tangential Firing Systewritten by: Dr V T
Sathyanathan edited by: Lamar Stonecypher updated: 5/19/2011
Combustion tuning in boilers will lead to optimizing the
performance more so in high ash coal fired boilers. In high ash
coal fired
boilers having direct tangential firing systems, proper
combustion will ensure minimum water wall deposits and thus an
optimal
furnace outlet temperature.
Pulverised coal combustionPulverised coal combustion involves
two main sequential, but possibly overlapping, stages. (1) Rapid
heating and devolatilisation
as a result of pyrolysis followed by (2) combustion of char
residue emanating from the devolatilisation stage. The first stage
is
fast, taking times in the order of 0.1 sec. only. The second
stage is slow, requiring times in the order of 1 sec. to 2.5 sec.
and
therefore, thus has a major effect on the size of the combustion
chamber. In practical combustion situations, such as in a large
pulverized coal combustor, different particles can undergo
concurrently different processes such as pyrolysing, oxidising
reactions under different temperature regimes.
Tangential firing
In a tangential firing system the coal is pulverized in coal
mills and is carried by primary air to the furnace through coal
pipes.
The mills are usually a constant airflow mill and have a
specific output in mass of coal ground depending on coal properties
like
hardness, moisture, and fineness which affect the mill output.
In direct tangential firing systems, the pulverized coal from the
coal
mills is directly taken to the furnace.
Coal properties such as FC/VM (Fixed Carbon / Volatile Matter),
particle size, oxygen, calorific value of the coal, reactivity,
andash content seem to be the most important variables for
pulverised coal combustion in tangentially fired boilers, and they
are
highly inter-related.
The total quantity of coal to be pulverized for a specified size
of boiler at a designed efficiency will depend on the calorific
value
of coal. As the ash content in coal goes up, the calorific value
per unit mass of coal comes down. This increases the mass of
coal
to be prepared, which in turn increases the number of mills or
elevations needed in a tangential firing system.
The secondary air required for combustion is sent into the
furnace through a windbox housing the coal nozzles, oil guns, and
the
secondary air nozzles. Behind the coal nozzles there are
fuel-air dampers which are used for keeping the flame front away
from
the coal nozzles by at least one meter from the tip. This is
required to prevent the coal nozzle tips from getting burnt due
to
radiation from coal flame. The flame front is predominantly
affected by the volatile matter in coal and the fuel air damper
is
modulated for controlling the flame front. As the fuel air
dampers are opened, more secondary air goes through this damper
and
physically pushes the flame front away. However, when the flame
front is already away from the nozzle tip, the fuel air damper
needs to be closed fully.
Combustion airThe total air quantity for combustion in a boiler
will depend upon the million kilocalories being fired to generate
steam at a
specified parameter. This total air is divided into primary air
and secondary air in the ratio of 30 % and 70%. As the ash
percentage goes up in coal, the amount of mill air flow goes up,
as the number of mills to be in operation goes up. This results
in
an upset between primary and secondary air ratio.
Tuning combustion in high ash pulverized coal fired boilers
having direct tangential firing systems should address all the
above
said factors.
Combustion tuning steps
Operate the boiler at a constant load and designed steam
parameters Keep the excess air around 20 to 25%
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Boilers Having Direct Tangential Firing Syste
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Load all the mills equally and keep only the minimum number of
mills required Adjust the mill fineness to the required level
normally 75% through 200 mesh and less than 2% on 50 mesh sieve
Keep the mill outlet temperature close to 85 to 90 degrees
centigrade Adjust the mill air flow to just above the settling
velocity
Note the operating mill air flow reading and reduce the mill air
flow in steps of 0.5 to 1 t/hr wait for a minimum of 15minutes
before reducing again
Watch the furnace draft while doing this, when a small
fluctuation starts then stop reducing the air flow and note
thereading
Increase the air flow above that was being maintained before
reduction and keep it for 30 minutes this clears off anysettling in
the coal pipe
Now keep the mill air flow at the flow value noted when furnace
fluctuation started plus about 1 t/hr, make sure nofurnace pressure
fluctuation is seen
Repeat this for all the mills one by one This ensures minimum
primary air flow being used for transporting the high ash coal
powder to the furnace Check the flame front if it is one meter away
from the coal nozzle tip then close all fuel air dampers. If
volatile matter in
coal is 20% or less this condition gets satisfied
Keep the windbox pressure of 80 to 100 mm of water column Watch
the furnace for the flame conditions like brightness and
flickeringThe steps carried out will help to achieve combustion at
optimal level. Optimum combustion in the boiler will ensure
performance of the boiler within a desired limit.
