LT6701B - Faba bean waste biofuel pellets and/or sorbent, fertilizer - Google Patents

Abstract

The invention relates to the field of bioenergy that solves the problems of the utilization of faba bean harvest waste for the production of biofuel because pellets produced from 100 % faba bean harvest waste comply with quality and environmental standards and are suitable for use in biofuels. Faba bean waste is usually dry enough at harvesting time and does not need to be dried for pelleting, which makes the production process cost-effective and environmentally friendly. The removal of faba bean waste from the field, unlike grain straw, does not reduce soil fertility which remains stable. Faba bean biofuel pellets have a greater bulk density than those produced from grass, straw or wood waste, making logistic more convenient and cheaper. In addition, faba bean waste biofuel pellets are resistant to crushing, resulting in less crumbling during transportation and packing. Faba bean waste pellets provide a high-quality and efficient burning process, and the emissions of harmful pollutants (carbon dioxide and monoxide, nitrogen oxides, unburned hydrocarbons and sulphur dioxide) do not exceed the permitted limits, so their use is permissible in low-power (up to 100 kW) boilers. The invention also relates to the field of agriculture that solves the problems of manure and slurry disposition and soil fertility restoration, because faba bean pellets effectively absorb moisture, and by saturating animal faeces and urine, they are excellent organic fertilizers, because the granules themselves contain up to 3 - 4 times more general crop macronutrients (N, P, K, Ca, Mg) compared to straw and sawdust.

Description

Field of the invention

The invention relates to a fuel produced from bean harvest waste and a Z or currant fertilizer by compressing them into pellets. The invention belongs to the field of bioenergy, which solves the problems of using bean harvest waste for biofuel production. Also for agriculture, which addresses the problems of sorption of moisture on livestock farms and restoration of soil fertility.

State of the art

The use of renewable energy sources is growing every year. Biofuels have one of the greatest potential for this energy in the European Union. In Lithuania, about 97 percent. the raw materials for the biofuels produced are wood waste and straw. Bean harvest waste has so far not been used for biofuel production due to the small size of its growing areas and the low biomass produced on the surface. In recent years, with the increase in bean crop areas and the cultivation of tall (up to 150 cm tall) varieties of field beans (Vida faba L.) growing high aboveground biomass, it has become appropriate to use bean crop waste for biofuel production. However, the method of growing beans and producing pelleted biofuels from bean waste has not been known so far because it differs from wood or straw pelleting. Pellets from 100 percent. properties of bean waste.

The essence of the invention

The object of the invention is to produce pellets from bean harvesting waste (above-ground part of the plant: stem, leaves, pods) which meet quality and environmental standards and are suitable for use as biofuel.

On average, about 4.2 - 4.5 t / ha of bean seeds are applied, 5.4 - 5.5 t / ha of waste-lumps (dry matter) remain in the field. The ratio of bean seeds to above-ground waste is about 1: 1.4. Although there is less bean waste than, for example, maize (but more than cereal straw), the use of maize waste for biofuel production removes soil that requires significant investment to maintain / restore yields. With the decay of the bean roots, the soil is sufficiently replenished with nutrients and, after the removal of the above-ground waste, its yield still remains stable. In unfavorable years for growing beans (excess / insufficient moisture) or the spread of weeds and other pests in the crop, unprofitable bean seed yields are often obtained, but the total biomass remains similar. It is expedient to use all the above-ground biomass of such crops together with weeds (on average about 1 t / ha of dry biomass) and bean seeds for biofuel production. Such biomass is forcibly dried.

The patent LT4773B of the invention describes a method of producing fuel from vegetable waste, in which pieces of fuel are formed, cut and dried. During the harvest of bean seeds, the above-ground residues (biomass) are usually sufficiently dry (10 - 12% moisture) and do not require forced drying for granulation. This is a great advantage, as drying sawdust or chips requires up to 400 kWh / t of energy.

The fraction of bean residues crushed by a drum grinder is too large for granulation and needs to be further crushed to a flour fraction. The grind must be dominated by a fraction no larger than 1.0 mm. The physical properties of the granules are given in Table 1. The bulk density of granulated bean biofuel pellets is about 700 kg / m ³ and 30 - 50 kg / m ³ higher than that made from grass, straw or wood waste, which makes them more convenient and cheaper to transport. In addition, bean residue biofuel pellets are resistant to compression, resulting in less crushing during packaging and transportation.

Bean pellets made from bean waste grown in deep soil (22 - 25 cm deep) are of the highest quality, but slightly worse are made from bean waste grown in deep (23 - 25 cm deep) loose soil. Their ash content is one of the lowest and the lower calorific value is one of the highest. Reducing the depth of autumn tillage by 2 or more times results in lower quality pellets.

Closely related to the content is the invention application CZ PV 2002-0885, which describes a fuel compressed into hemp fiber pellets, but hemp weakens the soils and enriches the beans with macroelements, so our solution is more environmentally friendly.

Of the 100% produced in the manner described. the lower calorific value of the dry fuel of biofuel pellets from bean waste is equivalent to that produced from hemp and is higher than that of spring cereal straw, ivory, meadow grass, but slightly lower than that of winter wheat straw, wood or reed. The ash content of bean waste pellets is low and meets the highest class A requirements for herbaceous vegetation raw material (Table 2).

The incineration of bean waste pellets ensures a high-quality and efficient process and the identified emissions of harmful pollutants - carbon dioxide CO2, carbon monoxide CO, nitrogen oxides NOx, unburnt hydrocarbons CxHy and sulfur dioxide SO2 - do not exceed the permissible levels, although they contain up to 3-4 times more nitrogen than in cereal straw pellets (Table 3). The use of bean waste pellets is permitted in low-power heating boilers.

Closely related is the patent LT5459B of the invention, which describes a method for the production of granular fuel and / or fodder from plant-animal waste, which, after selecting the composition, is also suitable for animal feed. According to its chemical composition 100 percent. bean waste pellets are not suitable for animal feed, but can be used as a sorbent (to reduce relative humidity) and litter. Bean waste pellets can absorb about 8.5 percent (hygroscopicity) from the environment. moisture and absorb 310 per cent during direct contact. fluids from their mass (Table 4). The hygroscopicity of wood waste pellets is lower than that of beans, but the water receptivity is higher and faster, so these pellets should be mixed for animal litter. The water capacity (water capacity) of peat is up to 410%, but their negative feature as a fuel is that peat pellets are not resistant to compression, and after burning they remain even 8 - 15%. ash.

Saturated with liquid animal faeces and urine, they are an excellent organic fertilizer, far surpassing manure with cereal straw litter, because the granules themselves contain up to 3-4 times more basic macroelements (N, P, K, Ca, Mg) than straw and sawdust. (Table 5).

Analysis' results

The raw material for the production of bean pellets was grown at the Test Station of the Agricultural Academy of Vytautas Magnus University (VMU ŽŪA), the physical properties of bean waste pellets were determined in VMU ŽŪA laboratories; elemental composition - in the Agrochemical Research Laboratory of the Lithuanian Center for Agrarian and Forest Sciences; calorific value, ash content and gas emissions during combustion - in the laboratories of the Lithuanian Energy Institute.

table. Physical properties of biofuel pellets made from different plant raw materials.

Raw material Granule density, kg / m ³ cm Bulk density, kg / m ³ Maximum compressive force, N / mm ² Bean waste 1435.89 700.3 20.74 Cereal straw 1000-1100 680.0 12.89 Coniferous wood sawdust 1000-1400 650.0 15.35 Elephant 654 nd nd Reed stripes 1035 nd nd Note: nd - no data.

table. Calorific value and ash content of biofuel pellets made from different plant raw materials during combustion.

Raw material Humidity, per cent Ash content, per cent Lower calorific value of the dry mass, MJ / kg Wet mass net calorific value, MJ / kg Bean waste 9 3.93 17.0 15.3 Cereal straw 7-14 6-8 16.7-17.8 12.9-13.8 Coniferous wood sawdust <12 <1.50 17.2-19.5 > 16.9 Elephant 8.4 8.84 17.8 16.2 Meadow grass (dogwood) 10.0 7.65 17.7 15.7 Reed stripes 6.7 8.0 17.4 16.1

Note: The main requirements for biofuel feedstock are calorific value (Class A> 14.1 MJ / kg; Class B> 13.2 MJ / kg) and ash content (A <5%; B s 10%).

table. Results of a study on harmful emissions from the combustion of pellets made from various plant raw materials.

Raw material CO ₂ percent o ₂ percent. CO PPm 3 O X C _x H _y ppm so ₂ , PPm Bean waste 4.1 15.2 1072 151 56 2.0 Cereal straw 1.0 nd 850 60 nd 0.11 Coniferous wood sawdust 4.9 14.8 360 46 34 0.01 Elephant 5.2 38.6 2295 216 61 0.11 Meadow grass (dogwood) 6.0 39.8 1035 205 49 0.21 Reed stripes 7.4 30.4 905 176 56 0.19

table. Comparison of sorption properties of bean waste pellets with wood waste pellets and unpressed peat bogs.

Absorbent material Water capacity (water capacity) percent. Hygroscopicity percent. Bean waste pellets 310 8.5 Wood waste pellets 390-400 8.2 High marsh peat 420 16.0

table. Elemental composition of biofuel pellets made from different plant raw materials (per cent).

Raw material N P K Ca Mg S C Bean waste 1.27 0.38 2.92 1.05 0.27 <0.01 46.22 Cereal straw 0.34-0.50 0.07-0.18 0.52-1.12 0.21-0.33 0.05-0.07 <0.05 45-48 Conifers 0.5-2.3 0.02-0.03 0.26-0.46 nd nd 0.05 48-50

wood sawdust

Claims (2)

DEFINITION OF THE INVENTION 1. Fuel produced from bean residues, compressed into pellets, characterized in that only bean plant residues from seed harvesting are used for production. 2. The fuel according to claim 1, characterized in that it can be used in low-power boilers and / or livestock farms as a sorbent (litter) and organic fertilizer.