What is the Effect of Biomass Pellets Burning, Look at This Test to Know
Date: 06/09/2020 09:29:28 From: wood-pellet-plant.com Clicks:
Biomass pellet fuel is a representative of environmentally friendly fuel. Because of its advantages of high efficiency, cleanliness, easy combustion and zero carbon emissions, it has applications in both industrial and civil fields. For example, biomass pellet boilers are specialized in using biomass pellets as fuel. At the same time, biomass pellets are also a good substitute for fossil fuels such as coal.
However, poor quality biomass particles have high ash content and high alkali metal content, which may cause slag adhesion, alkali and chlorine corrosion or serious fly ash problems during the combustion of biomass particles. Therefore, it is necessary to analyze the combustion characteristics of biomass particles, such as ignitability, combustion efficiency, pollutant emissions and ash characteristics. The following Richi Machinery will introduce the test on the combustion performance of biomass particles. What is the effect of biomass particles burning, look at this test to know.
Test Material of Biomass Pellet Combustion Property
All the biomass pellets used for the test is made by a professional biomass pellet plant. In order to compare the different material biomass pellets combustion characteristics, we have chosen eight typical biomass pellet fuels, which include four types of straw and stalk pellet fuels (cotton stalk pellet, wheat straw pellet, corn stalk pellet, corn stalk pellet with additives), three types of wood pellet fuels (larch pellet, Korean pine pellet and mixed wood pellet), and a types of biomass pellet fuel which is made from wood chips and peanut shell, and the quality ratio of wood chips and peanut shell is 1:4. All the biomass raw materials has been pelletized into biomass pellet with the diameter of 8mm, and length between 10-30mm. The pellet density is about 1.2g/c.
Type | Material | Chemical Elements(%) | ||||
C | H | O | CI | S | ||
Straw and stalk pellet | cotton stalk | 38.33 | 4.74 | 24.98 | 1.55 | 0.29 |
wheat straw | 43.46 | 5.66 | 31.12 | 0.74 | 0.28 | |
corn stalk | 44.92 | 5.77 | 31.26 | 0.98 | 0.21 | |
corn stalk with additives | 0.98 | 5.15 | 28.48 | 1.19 | 0.25 | |
wood pellet | larch | 48.89 | 6.19 | 36.07 | 0.12 | 0.09 |
Korean pine | 47.39 | 5.89 | 30.75 | 0.23 | 0.1 | |
mixed wood | 47.14 | 5.63 | 27.71 | 0.98 | 0.15 | |
mixed pellet | wood chips + peanut shell(1:4) | 48.83 | 5.45 | 27.46 | 0.86 | 0.02 |
Table 1 Ultimate analysis of eight types of biomass pellet fuels
Type | Material | Quality Analysis(%) | NCV(KJ/kg) | |||
moisture | ash | volatile | fixed carbon | |||
Straw and stalk pellet | cotton stalk | 8.42 | 21.69 | 62.33 | 7.56 | 13147 |
wheat straw | 8.79 | 9.95 | 72.01 | 9.25 | 15225 | |
corn stalk | 9.15 | 7.71 | 75.58 | 7.56 | 15132 | |
corn stalk with additives | 9.12 | 15.83 | 67.88 | 7.17 | 15114 | |
wood pellet | larch | 7.63 | 1.01 | 85.55 | 14.75 | 16829 |
Korean pine | 9.32 | 6.32 | 76.61 | 7.75 | 16645 | |
mixed wood | 9.14 | 9.25 | 72.65 | 8.96 | 16302 | |
mixed pellet | wood chips + peanut shell(1:4) | 9.34 | 13.04 | 67.38 | 10.24 | 15948 |
Table 2 Proximate analysis and heat value of biomass pellet fuels
Test Instrument and Devices of Biomass Pellet Combustion Property
Test Instrument
The test instrument includes a GJ-2 sealed sample preparation comminuter, a XL-1 high temperature oven, a VarioEL elemental analyzer, a VISTA-MPX inductively coupled plasma optical emission spectrometer (ICP), a BSA223S-CW analytical balance, a PL2002 electronic balance, a SZ11-4 automatic sieving machine, a KM9106 flue gas analyzer, a 101.1A electric thermostatic drying oven, a ZDHW-5 automatic high precision computer calorimeter, a HR.45 intelligent ash fusion point determination meter and so on.
Test Device
The complete device for the test is shown as the following picture (Table 3). The complete system consist of the pellet storage tank, spiral conveyor, combustor, boiler, flue gas analyze system and the measurement control system. We use the PelleX automatic biomass pellet combustor which is imported from Sweden, the thermal output of the combustor is 10-25kw, and the combustion efficiency is about 90%. The power consumption of ignition is 400w, and the power consumption of operation is 40w.
Test operation procedure: when we start the device, the spiral conveyor will transport the biomass pellet to the combustor. Then we should open the operation switch, the combustor starts, and the biomass pellets has been fed in the combustor. When the biomass pellets reach the start quantity, the combustor ignites. After the start-up, the air blower starts, and the pellet firing area enlarges, the spiral conveyor keep on feeding biomass pellets. After the fire is stable, the test device goes into the pre-operation stage. After the combustion performance is stable, the test device goes into the operation stage. The air blower runs at full speed, the spiral conveyor feeds biomass pellet at the specified speed, and the combustor operates at full power. When the outlet water temperature of the boiler is about 5℃ lower than the pre-set temperature, the combustor operates at low power, the biomass pellet feeding rate stays around 65%, also, we should lower the speed of the air blower. When the outlet water temperature reaches the pre-set temperature, the flame will be knocked down, the spiral conveyor stops, and the air blower will keep on working for a certain time and then stops, and the combustor is at the stop stage. When the outlet water temperature of the boiler is lower than the pre-set temperature, the combustor starts again.
There is a controller of the combustor, which can monitor the complete working process of the combustor automatically. The controller can monitor the start and stop of the combustor, adjust the feeding quantity, feeding speed and supply air rate, and set different start temperatures and stop temperatures. Moreover, the controller can show the different working stages of the combustor, and the overheating protection, ignition failure, and breakdown during combustion.
Image 1 Schematic of the experimental burning system
According to the test of eight kinds of biomass pellets, the ignition property of biomass pellets is closely related to the volatile component and moisture content of the biomass pellets. Among all the biomass materials, larch maintains the highest volatile component, and lowest moisture content. Therefore, larch pellets has the shortest ignition time. On the contrary, cotton stalk holds the lowest volatile component and highest moisture content, which needs the longest ignition time. Biomass pellets ignition time is linear to the volatile components of the biomass pellets. The higher the volatile component is, the shorter ignition time the pellets need. This is because the volatile component of biomass pellet consists of several combustible gases, such as hydrogen, methane, unsaturated hydrocarbon and carbonic oxide. So when there are more volatile components in the biomass pellets, it is easier to ignite. The ignition time of biomass pellets has exponent relation to the moisture content of the biomass pellets. The higher the biomass pellets moisture content is, the longer ignition time the biomass pellets need. This is because the high moisture content of the biomass pellets will lengthen the drying time and lower the max combustion temperature, so the ignition time of the biomass pellets is longer, too. Also, we should know that when the moisture content over the certain value, the biomass pellets can not be ignited.
Biomass Pellet Combustion Property
The Description of Biomass Pellet Test Presentation
After the observation, the combustion process of eight kinds of biomass pellets can be divided into four stages, the start-up, pre-run, operation stage and stop stage. When the start-up stage starts, the flue gas is white and consists of vapour, the blackness of the gas is high. When we have successfully ignited the pellets, the color of the flame is red, and the temperature is low and the blackness of gas is lighter. The gas is black or grey which caused by the lack of combustion air during the burning period. In the pre-run stage, the flame becomes orange, the temperature goes higher and the blackness of the gas is much lighter. During the operation stage, the fire flame becomes light yellow, the gas is light smoke. At the stop stage, the blackness of gas grows again, and the fire flame turns down.
Co Emission During Biomass Pellet Combustion
After the combustor starts, the CO content of the flue gas is increased till the peak value. When the combustion goes into the operation stage, the CO content goes down. The analysis shows that the combustion chamber maintains low temperature and the supply air rate is small but the feed quantity has reached the pre-set value in the start-up and pre-run stages. Therefore, the biomass pellets has not been fully burned, so the CO emission is high. When the combustor goes into the operation stage, the air blower runs fully, and the temperature increases, the combustion performance is stable, therefore the biomass pellets can be fully burned, so the CO emission is low. When the combustor stops, the air blower stops working, the unburned biomass pellets can not be fully burned, therefore, the CO emission goes higher.
Pellets Type | larch | Korean pine | corn stalk | wood chips and peanut shell | corn stalk with additives | mixed wood | wheat straw | cotton stalk |
CO Emission | 29.18mg/m | 51.19mg/m | 59.06mg/m | 63.09mg/m | 65.25mg/m | 120.00mg/m | 365.94mg/m | 555.37mg/m |
Table 3 The CO emission concentration of eight types of biomass pellets
So2 and No Emission During Biomass Pellet Combustion
During the start-up, pre-run and stop stages, the SO2 emission concentration is higher, which is also caused by incomplete combustion. During the operation stage, the majority of biomass pellet shows extremely low emission concentration of SO2, which is because there are low sulphur content in biomass. But cotton stalk is an exception. The SO2 emission concentration of cotton stalk pellets are much higher than other biomass pellets, although, the sulphur content of cotton stalk is not high. This indicates that the generation mechanism of SO2 is complicated. It is not only related to the sulphur content, but also related to the biomass type and combustors type.
The NO emission concentration of eight types of biomass pellets has been placed as follow. The No emission concentration of eight types of biomass pellets are proportional to the nitrogen content of the biomass pellets. The higher the nitrogen content of the biomass pellet is, the higher NO emission concentration will be.
Pellets Type | larch | mixed wood | Korean pine | wood chips and peanut shell | wheat straw | corn stalk | cotton stalk | corn stalk with additives |
CO Emission | 33.88mg/m | 83.47mg/m | 87.05mg/m | 110.35mg/m | 115.31mg/m | 132.18mg/m | 140.63mg/m | 145.34mg/m |
Table 4 The NO emission concentration of eight types of biomass pellets
The Influence of Ash Content on Combustion
There is a significant influence of the biomass pellets ash content on the operation time of the combustor. If the ash content of the biomass pellets is too high, the combustor may be hard to operate because of the discharge failure of the ash content. Cotton stalk pellets has the highest ash content, which is 21.69% of the total pellet weight, but the slagging rate is low, only 24.13%. But the operation stage of cotton stalk pellet is the shortest, only 7 minutes. Besides, the slagging rate also has strong influence on the operation time of the combustor. Take Korean pine pellet as an example, the ash content of Korean pine pellets is 6.32%, but the slagging rate of Korean pine pellet ash is 57.81%. The slagging problem may block the inspection hole of the combustor, which may stop the combustor.
Pellet Type | ash content | slagging rate | running time |
cotton stalk | 21.69% | 24.13% | 7min |
corn stalk with additives | 15.83% | 26.17% | 18min |
wheat straw | 9.95% | 36.57% | 22min |
wood chips + peanut shell | 13.04% | 47.13% | 26min |
corn stalk | 7.71% | 48.94% | 27min |
Korean pine | 6.32% | 57.81% | 49min |
mixed wood | 9.25% | 48.23% | 52min |
larch | 1.01% | 0 | continuous operation |
Table 5 The ash content, slagging rate and running time of eight types of biomass pellets
Biomass Pellet Combustion Property Test Result
The ignition time of biomass pellets is related to the volatile content and moisture content of the biomass pellets. High volatile content and low moisture content makes the ignition time shorter.
During the combustion period, biomass pellet release contaminants such as SO2 and NO far lower than the national standards. But some biomass pellets shows problems like high ash content, or serious slagging problem, so choosing the suitable biomass pellet is very important.
The elements that mainly effect the slagging rate of the biomass pellets are silicon, alkalis and alkaline earth. High silicon content of biomass pellets means high alkalis content, which makes the ash easy to slag. But high alkaline earth content means less slags. Therefore, add proper additives can improve the slagging problem effectively.
The above is the article for you: What is the Effect of Biomass Pellets Burning, Look at This Test to Know. If you are interested in our products or project solutions, please contact us. We will give you the best product quality and the best price. Email: enquiry@pellet-richi.com
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