PL245967B1 - Granulate of sawdust from coniferous wood enriched with a composition of additives - Google Patents

Abstract

The subject of the application is an innovative granulate of sawdust from coniferous wood refined with a composition of additives reducing the level of emission of toxic exhaust components, containing iron(III) oxide and kaolin, characterized in that it consists of: 99% (m/m), calculated on the total mass of the innovative granulate, component I, which is sawdust from coniferous wood, and 1% (m/m), calculated on the total mass of the innovative granulate, component II, which is a composition of additives consisting of from 19.0% to 21.0% (m/m) of kaolin and from 79.0% to 81.0% (m/m) of iron(III) oxide, where components I and II are mixed and thoroughly homogenized before the granulation process.

Description

Description of the invention

FIELD OF TECHNOLOGY

The subject of the invention is sawdust granulate from coniferous wood enriched with a composition of additives that limits the level of emission of toxic exhaust components, used as fuel.

STATE OF TECHNOLOGY

Since the second half of the 1980s, regulations limiting the emission of harmful exhaust components into the atmosphere have been introduced and systematically tightened all over the world. The emission volume and type of exhaust components emitted from biomass-based energy facilities depend mainly on the fuel composition, the combustion process used and the exhaust gas cleaning method. Emissions of toxic exhaust components can also be limited by using substances dosed to the fuel at the stage of its production.

Patent description US 8048243 presents the composition of a universal additive for fossil fuels such as coal, crude oil, natural gas, and even for wood and charcoal, the use of which reduces the emission of sulfur oxides, nitrogen oxides and carbon monoxide. The additive consists of sodium nitrate in the amount of 12-18 wt.%, potassium permanganate 0.2-0.4 wt.%, sodium carbonate 0.5-1.5 wt.%, silicon dioxide 40-65 wt.%, iron(II) oxide 3-5 wt.%, magnesium oxide 2-5 wt.%, potassium oxide 0.3-0.8 wt.%, aluminum oxide 20-24 wt.% and iron(III) oxide 2.6-5.3 wt.%.

Patent description PL 231237 presents an additive to solid fuels, including briquettes, pellets and wood, limiting the formation of soot and toxic compounds present in soot, consisting of: 30-60% by mass of iron (II) and (III) oxide, 10-30% by mass of potassium nitrate (V), sodium nitrate (V), ammonium nitrate (V) or a mixture of these nitrates, 5-30% by mass of sodium percarbonate and 10% by mass of anti-caking agent, which is powdered burnt clay. The additive is used in the amount of 0.05-0.2% by mass of the combusted fuel.

Patent description EP 0725128 presents the composition of an additive for solid biofuels, such as sawdust, wood chips and various types of bio-waste, the task of which is to reduce the emission of solid particles and at the same time act as a binder in the process of producing briquettes or pellets. The additive consists of carboxylates of alkali metals, rare earth elements and metals from group 8 of the periodic table of elements, which have 7 to 22 carbon atoms. It is most advantageous for these metals to be magnesium, calcium and iron, and the mass ratios between them to be 10-30% by mass of magnesium, 40-80% by mass of calcium and 10-30% by mass of iron. It is advantageous for the concentration of metals in the additive to be 10-20% by mass. The advantage of the additive is its calorific value comparable to or even higher than the fuel itself, which means that its use, unlike other additives of this type, does not reduce the calorific value of the refined fuel.

Patent application US 4588568 presents a method for reducing sulfur oxide emissions by adding a mixture of alkali carbonates and alkali metal oxides, for example a mixture of sodium carbonate and magnesium oxide in a 1 to 2 ratio, to the burning fuel.

The authors of the paper (Streibel T., Muhlberger F., Geiβler R., Saraji-Bozorgzad M., Adam T., Zimmermann R., Influence of sulphur addition on emissions of polycyclic aromatic hydrocarbons during biomass combustion, Proceedings of the Combustion Institute, 2015, 35(2), 1771-1777) presented the results of research in which they stated that the addition of ammonium sulphate reduces the emission of polycyclic aromatic hydrocarbons, carbon monoxide and nitrogen oxides during the combustion of biomass, in particular coniferous tree bark.

The authors of the article (Wolf K. J., Smeda A., Muller M., Hilpert K., Investigations on the influence of additives for SO2 reduction during high alkaline biomass combustion, Energy & fuels, 2005, 19(3), 820-824) showed that the addition of calcium and potassium compounds to biomass leads to a reduction in sulfur oxides emissions from its combustion process.

Also in the article (Dragutinovic N., Hofer I., Kaltschmitt M., Effect of additives on thermochemical conversion of solid biofuel blends from wheat straw, corn stover, and corn cob, Biomass Conversion and Biorefinery, 2019, 9(l), 35-54) the results of research were presented, which confirm that the addition of magnesium oxide and calcium carbonate reduces the emission of sulfur compounds during the combustion of biomass, on the example of wheat straw and corn cob.

PL 245967 Β1

The aim of the present invention is to obtain an innovative sawdust granulate from coniferous wood, refined with a composition of additives limiting the level of emission into the atmosphere of toxic exhaust components emitted during the combustion process, which will be characterized by a lower level of emission of organic carbon compounds, CO and SO _X generated during its combustion than sawdust granulate from coniferous wood not containing the additive composition.

It has been unexpectedly found that such properties are possessed by the innovative granulate of sawdust from coniferous wood, refined with a composition of additives, in accordance with the present invention, which is characterized by a lower level of emission of organic carbon compounds, CO and SO _X generated during its combustion than granulate from coniferous wood not containing the composition of additives.

THE ESSENCE OF THE INVENTION

Sawdust granulate from coniferous wood, refined with a composition of additives that reduces the level of emission of toxic exhaust components, containing iron(III) oxide and kaolin, is characterized by the fact that it contains:

- 99% (m/m), based on the total mass of the innovative granulate, component I, which is sawdust from coniferous wood, and

- 1% (m/m), based on the total mass of the innovative granulate, component II, which is a composition of additives consisting of 19.0 to 21.0% (m/m) of kaolin and 79.0 to 81.0% (m/m) of iron(III) oxide,

For the purposes of this invention, granulate should be understood as a product subjected to densification or compaction processes, including pellets and briquettes.

It turned out during the research that refining the innovative sawdust granulate from coniferous wood with a composition of additives showing synergistic action allows for the reduction of emissions of organic carbon compounds, CO and SO _X from its combustion by more than 20 times compared to sawdust granulate from coniferous wood not containing the additive composition.

The present invention is presented in embodiment examples 1 to 5, illustrating the composition, method of production and effectiveness of reducing the emission of toxic exhaust components by using in the combustion process an innovative granulate of sawdust from coniferous wood refined with an additive composition, where examples 1 and 2 are comparative examples, and examples 3 and 4 are examples according to the invention, but they cannot be considered as limiting the essence of the invention, because they are only of illustrative nature.

EXAMPLES

Example 1 - comparative example

10,000 g of coniferous wood sawdust with properties given in Table 1 was weighed and then granulated in a ZLSP-150B pelleting machine by Haven Polska Sp. z o.o. using a matrix with a mesh diameter of 6 mm.

Table 1. Characteristics of coniferous wood sawdust used for testing.

On/conditions/s hadams method Unit ; λ value Moisture content in analytical sample % 4.6 Total moisture content % 6.9 Ash content % 0.2 Total sulfur content % 0.02 Combustion heat kj/kg 20801 Calorific value kJ/kg 17957 Elemental carbon content % 47.5 Hydrogen content % 5.83

PL 245967 Β1

Example 2

20 g of kaolin with properties from Table 2 and 80 grams of iron(III) oxide with properties from Table 3 were weighed, combined and thoroughly mixed. 9900 g of coniferous wood sawdust with properties from Table 1 were weighed. The prepared composition of kaolin and iron(III) oxide was introduced into the weighed coniferous wood sawdust, and then the sawdust was thoroughly mixed with the composition. The obtained sample was granulated in a ZLSP-150B pelleting machine from Haven Polska Sp. z o.o. using a matrix with a mesh diameter of 6 mm.

Table 2. Characteristics of kaolin used for testing.

Name designates, test method •Unit Value... SiOz Content % 51.5 AhOa content % 34.5 Bulk density, kg/m ³ 300 Moisture content % 0.8

Table 3. Characteristics of iron(III) oxide used for the tests.

Name of the marking, test method Unit .Value FeaOs Content % 96.0 pH (5% suspension), 20C 5 Density kg/ ^dm3 5.24 Bulk density kg/dm ⁸ 0.7

Example 3 - comparative example

9900 g of coniferous wood sawdust with properties given in Table 1 and 100 g of kaolin were weighed, combined and thoroughly mixed. The sample of sawdust with kaolin was then granulated in a ZLSP-150B pelleting machine by Haven Polska Sp. z o.o. using a matrix with a mesh diameter of 6 mm.

Example 4 - comparative example

9900 g of coniferous wood sawdust with properties from Table 1 and 100 g of iron(III) oxide were weighed, combined and thoroughly mixed. The sample of sawdust with iron(III) oxide was granulated in a ZLSP-150B pelleting machine from Haven Polska Sp. z o.o. using a matrix with a mesh diameter of 6 mm.

Example 5

Combustion tests of the products from examples 1 to 4 were carried out in a Defro AIRPELL 8 pellet stove with a nominal thermal power of 8 kW.

During the tests, measurements were taken of the following exhaust gas contents: carbon monoxide (II) and sulfur oxide (IV) and organic carbon compounds. Exhaust gases intended for analysis of the content of harmful substances were taken from nozzles mounted in the measuring section connecting the heater with the chimney flue. The MRU ECU 3000 gas analyzer was used to test the content of carbon monoxide (II) and sulfur oxide (IV), while the Thermo-FID TG gas analyzer was used to test the content of organic carbon compounds. Carbon monoxide (II) and sulfur oxide (IV) were measured in accordance with the PN-EN 14785:2009 standard (Pellet-fired space heaters - Requirements and test methods). The measurement of organic carbon compounds was carried out in accordance with the standard PN-EN 303-5:2012 (Heating boilers. Part 5: Heating boilers for solid fuels with manual and automatic fuel charging of nominal power up to 500 kW - Terminology, requirements, testing and marking). The determined results of the composition of exhaust gases emitted during the combustion of products from examples 1 to 4 are presented in Table 4.

PL 245967 Β1

In accordance with the requirements of the PN-EN 14785:2009 standard and the COMMISSION REGULATION (EU) 2015/1185 of 24 April 2015 implementing Directive 2009/125/EC of the European Parliament and of the Council with regard to requirements for solid fuel local space heaters, the measured substance values in the flue gases were converted to 13% oxygen content.

Table 4. Composition of exhaust gases emitted during combustion of products from examples 1 to 4.

Exhaust gas component [unit] Product from example 1 Product from example 2 Product from example 3 Product from example 4 CO converted [ppm] 7850 361 2511 3166 SOż converted [ppm] 23 1 5 9 organic compounds of Carbon depletion [mg/m ³ l P 38 34 141 288

The above examples present the composition of the innovative sawdust granulate from coniferous wood refined with the additive composition according to the invention and demonstrate the effectiveness of reducing the emission of toxic exhaust components in the combustion process of the innovative granulate from coniferous wood refined with the additive composition in test samples, proving its industrial applicability.

Emissions of toxic exhaust gas components from the combustion of the innovative granulate refined with the additive composition according to the invention were compared with the emissions from the combustion of granulate without additives and granulates containing single components of the composition.

Claims (1)

1. Granulate of sawdust from coniferous wood, refined with a composition of additives reducing the level of emission of toxic exhaust components, containing iron(III) oxide and kaolin, characterized in that it contains: - 99% (m/m), based on the total mass of the innovative granulate, component I, which is sawdust from coniferous wood, and - 1% (m/m), based on the total weight of the innovative granulate, component II, which is a composition of additives consisting of 19.0 to 21.0% (m/m) of kaolin and 79.0 to 81.0% (m/m) of iron(III) oxide.