阅读说明：本技术 一种固液双态高燃值生物质燃料制备方法 (Preparation method of solid-liquid dual-state high-fuel-value biomass fuel ) 是由 顾晓杰 于 2020-05-13 设计创作，主要内容包括：本发明公开了一种固液双态高燃值生物质燃料制备方法,属于生物质燃料领域,一种固液双态高燃值生物质燃料制备方法,通过对向熔融料内加入内质液球并对熔融料进行急降温处理,由于高温作用,水和轻油会迅速汽化,汽化后,气态的水和轻油会向外界溢出,一方面会在熔融料内部形成多孔洞,另一方面,汽化的轻油会附着在形成的孔洞的内壁上,使其在燃烧时,其内部也能充分与氧气接触,由于轻油的易燃性,可以有效提高本生物质燃料的燃值,有效降低燃烧不完全造成的燃料浪费的情况,同时,燃烧过程中液体助燃剂的溢出,可以在燃烧的过程中对生物质燃料内部添加助燃剂的效果,从而进一步提高内部燃烧率,提高燃值。(The invention discloses a method for preparing solid-liquid dual-state high-fuel value biomass fuel, belonging to the field of biomass fuel, which comprises the steps of adding an inner liquid ball into a molten material and carrying out rapid cooling treatment on the molten material, wherein water and light oil can be rapidly vaporized under the action of high temperature, after vaporization, the gaseous water and light oil can overflow to the outside, on one hand, a porous hole can be formed in the molten material, on the other hand, the vaporized light oil can be attached to the inner wall of the formed hole, so that the inside of the hole can be fully contacted with oxygen during combustion, due to the inflammability of the light oil, the fuel value of the biomass fuel can be effectively improved, the condition of fuel waste caused by incomplete combustion can be effectively reduced, meanwhile, the overflow of a combustion improver during the combustion can achieve the effect of adding the combustion improver into the biomass fuel during the combustion, thereby further improving the internal combustion rate and the fuel value.)

1. A preparation method of a solid-liquid dual-state high-fuel-value biomass fuel is characterized by comprising the following steps: the method comprises the following steps:

s1, melting rosin, diatomite and wollastonite at high temperature to obtain a molten material;

s2, uniformly adding the endoplasmic liquid ball into the molten material, and simultaneously carrying out rapid cooling solidification treatment on the molten material, wherein the surface pre-vaporized liquid (4) is rapidly vaporized in the rapid cooling process of the endoplasmic liquid ball, so that a porous fuel semi-finished product is obtained;

s3, after the temperature is suddenly reduced, maintaining the temperature after the temperature reduction for a period of time, and drying at the temperature;

and S4, naturally cooling to obtain the dry porous solid-liquid dual-state high-fuel-value biomass fuel.

2. The method for preparing the solid-liquid dual-state high-fuel-value biomass fuel according to claim 1, characterized by comprising the following steps: the high-temperature melting temperature in the S1 is 150-250 ℃.

3. The method for preparing the solid-liquid dual-state high-fuel-value biomass fuel according to claim 2, characterized in that: the standard of the rapid cooling in the S2 is as follows: the temperature was reduced to 95-105 ℃ over 3-5 s.

4. The method for preparing the solid-liquid dual-state high-fuel-value biomass fuel according to claim 1, characterized by comprising the following steps: the pre-vaporized liquid (4) is a mixed liquid of water and light oil, and the volume mixing ratio of the water to the light oil of the pre-vaporized liquid (4) is 1: 1.5-2.

5. The method for preparing the solid-liquid dual-state high-fuel-value biomass fuel according to claim 1, characterized by comprising the following steps: the inner quality liquid ball comprises an inner protective ball shell (1), a liquid combustion improver (2) is filled in the inner protective ball shell (1), an outer semi-permeable layer (3) wraps the outer end of the inner protective ball shell (1), and the pre-vaporized liquid (4) is filled in the outer semi-permeable layer (3).

6. The method for preparing the solid-liquid dual-state high-fuel-value biomass fuel according to claim 5, characterized in that: the outer semi-permeable layer (3) is of a microporous structure on the surface, and the inner diameter of each micropore is smaller than the liquid molecular particle size of the pre-vaporized liquid (4).

7. The method for preparing the solid-liquid dual-state high-fuel-value biomass fuel according to claim 6, characterized by comprising the following steps: the inner protective spherical shell (1) is made of hard combustible materials, and the ignition point of the inner protective spherical shell (1) is lower than that of the biomass fuel.

8. The method for preparing the solid-liquid dual-state high-fuel-value biomass fuel according to claim 4, characterized in that: the outer end of the outer semi-permeable layer (3) is fixedly connected with a plurality of water guide fiber pipes (5) which are uniformly distributed, and one end of each water guide fiber pipe (5) is embedded into the outer semi-permeable layer (3) and is in contact with the pre-vaporized liquid (4).

9. The method for preparing the solid-liquid dual-state high-fuel-value biomass fuel according to claim 8, characterized in that: the water guide fiber pipe (5) is made of super absorbent fibers, and an oleophobic coating is coated on the surface of the water guide fiber pipe (5).

Technical Field

The invention relates to the field of biomass fuels, in particular to a preparation method of a solid-liquid two-state high-fuel-value biomass fuel.

Background

Biomass energy refers to energy converted from plants, feces and organic wastes in the nature. Biomass, in addition to its aesthetic value in the earth's ecological environment, is a convenient, economical, renewable energy source for humans. Biomass combines CO2 with water through photosynthesis to form hydrocarbons (sugars) to build the biomass's backbone and in the process stores solar energy in the chemical bonds of structural compounds within the organism. In the process, along with the multiplication and the rest of a large amount of vegetation, the energy material which can be utilized for a long time is provided for the development and construction of human beings. When they are utilized, the basic elements (C, O, H, N, etc.) constituting the organism are used by the new organism, and the energy stored in its chemical bonds is released or converted into other forms of energy. Mainly distinguished from fossil fuels. In the current national policy and environmental protection standard, the direct combustion biomass belongs to a high-pollution fuel, is only used in a rural large stove and is not allowed to be used in a city. The application of biomass fuel, which is actually mainly biomass briquette fuel, is a novel clean fuel which is prepared by taking agricultural and forestry wastes as raw materials and preparing the raw materials into various briquettes, granules and the like through the processes of crushing, mixing, extruding, drying and the like and can be directly combusted.

When biomass fuel is combusted, the internal oxygen supply is insufficient, so that the overall fuel value is not high easily, incomplete combustion inside the fuel is easy to occur, and the fuel is wasted.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a method for preparing a solid-liquid dual-state high-fuel-value biomass fuel, which comprises the steps of adding an inner liquid ball into a molten material and carrying out rapid cooling treatment on the molten material, wherein water and light oil can be rapidly vaporized due to high temperature, after vaporization, gaseous water and light oil can overflow to the outside, on one hand, a porous hole can be formed in the molten material, on the other hand, the vaporized light oil can be attached to the inner wall of the formed hole, so that the inside of the hole can be fully contacted with oxygen during combustion, the fuel value of the biomass fuel can be effectively improved due to the inflammability of the light oil, the condition of fuel waste caused by incomplete combustion can be effectively reduced, meanwhile, the overflow of a liquid combustion improver during the combustion can add the combustion improver into the biomass fuel during the combustion, so as to further improve the internal combustion rate, and the fuel value is improved.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A preparation method of a solid-liquid dual-state high-fuel-value biomass fuel comprises the following steps:

s1, melting rosin, diatomite and wollastonite at high temperature to obtain a molten material;

s2, uniformly adding the endoplasmic liquid ball into the molten material, and simultaneously carrying out rapid cooling solidification treatment on the molten material, wherein the surface pre-vaporized liquid of the endoplasmic liquid ball is rapidly vaporized in the rapid cooling process, so that a porous fuel semi-finished product is obtained;

s3, after the temperature is suddenly reduced, maintaining the temperature after the temperature reduction for a period of time, and drying at the temperature;

and S4, naturally cooling to obtain the dry porous solid-liquid dual-state high-fuel-value biomass fuel.

Through adding the inner mass liquid ball in the melting material and carrying out rapid cooling to the melting material and handle, because high temperature effect, water and light oil can vaporize rapidly, after the vaporization, gaseous water and light oil can spill over to the external world, can form the multiple hole in the melting material inside on the one hand, on the other hand, the light oil of vaporization can be attached to on the inner wall of the hole that forms, make it when burning, its inside also can fully contact with oxygen, because the inflammability of light oil, can effectively improve the fuel value of this biomass fuel, effectively reduce the incomplete fuel waste's that causes of burning condition, and simultaneously, the spilling over of liquid combustion improver in the combustion process, can be at the effect of the inside additive combustion improver of biomass fuel in the in-process of burning, thereby further improve the internal combustion rate, improve the fuel value.

Further, the high-temperature melting temperature in the S1 is 150-250 ℃.

Further, the criterion of the rapid cooling in S2 is: in 3-5s, the temperature is reduced to 95-105 ℃, and the rapid temperature reduction treatment is to effectively avoid the condition that the endoplasmic reticulum ball is damaged in advance due to high temperature when entering the molten material, so that the endoplasmic reticulum ball can be effectively guaranteed to be damaged when the biomass fuel is combusted and used, and the liquid combustion improver 2 overflows in the process, so that the combustion rate of the biomass fuel is improved better.

Furthermore, the pre-vaporized liquid is a mixed liquid of water and light oil, the volume mixing ratio of the water to the light oil is 1:1.5-2, so that when an inner liquid ball just falls into a molten material, the water and the light oil can be rapidly vaporized due to the high temperature effect, after vaporization, gaseous water and light oil can overflow to the outside, on one hand, a porous hole can be formed inside the molten material, thereby improving the permeability inside and outside the obtained biomass fuel, so that the inside of the biomass fuel can be fully contacted with oxygen during combustion, further the combustion value is improved, on the other hand, vaporized light oil can be attached to the inner wall of the formed hole, after rapid cooling, the vaporized light oil can recover to be liquid again and stay on the biomass fuel due to temperature reduction, the combustion value of the biomass fuel can be effectively improved due to the easy combustibility of the light oil, the combustion can be more thorough, and the situation of fuel waste caused by incomplete combustion can be effectively reduced, meanwhile, the pre-vaporized liquid can absorb a large amount of heat during vaporization, so that the temperature near the inner medium liquid ball is effectively reduced, and the inner protective ball shell and the liquid combustion improver inside the inner protective ball shell are effectively protected from being influenced by high temperature when entering the molten material.

Furthermore, the inner material liquid ball comprises an inner protective ball shell, the inner protective ball shell is filled with a liquid combustion improver, the outer end of the inner protective ball shell is wrapped by an outer semi-permeable layer, the pre-vaporized liquid is filled in the outer semi-permeable layer, after the biomass fuel is combusted, the inner protective ball shell is gradually cracked under the high-temperature condition, and the liquid combustion improver inside the inner protective ball shell gradually overflows at the moment, so that the combustion-supporting effect from inside to outside is achieved, the combustion value of the biomass fuel is further improved, and the waste caused by incomplete fuel combustion is reduced.

Furthermore, the outer semi-permeable layer is of a microporous structure, the inner diameter of each micropore is smaller than the liquid molecular particle size of the pre-vaporized liquid, so that the pre-vaporized liquid has a large intermolecular distance before vaporization and cannot pass through the micropore, and after the pre-vaporized liquid is heated and vaporized, gaseous molecules can pass through the micropore and overflow outwards to enter molten materials, so that air holes are formed in the molten materials.

Further, interior protective spherical shell is made for the combustible material of stereoplasm, and interior protective spherical shell ignition point is less than this biofuel ignition point, makes biomass fuel when burning, and the interior protective spherical shell that is located biomass fuel can be destroyed because of high temperature from inside to make the interior liquid combustion improver of interior protective spherical shell spill over, and then realizes carrying out combustion-supporting effect to biomass fuel from the inside.

Further, outer semi-permeable layer outer end fixedly connected with a plurality of evenly distributed's water guide fiber pipe, wherein one end of water guide fiber pipe imbeds to outer semi-permeable in situ and with the contact of pre-vaporization liquid for hydroenergy in the pre-vaporization liquid can ooze outer semi-permeable layer along water guide fiber pipe, thereby makes outer semi-permeable in-layer water reduce gradually, and outer semi-permeable is increased gradually by the space of vacating, makes things convenient for outwards to spill over more during the light oil vaporization.

Further, the water guide fiber pipe is made for super absorbent fiber, makes it transport outside the outside semi-permeable layer of water in the liquid that pre-vaporizes, and the water guide fiber pipe surface is scribbled and is equipped with oleophobic coating, effectively avoids light oil to ooze along the outside semi-permeable layer of water guide fiber pipe outward to effective separation water and light oil, make the effect of vaporization better.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme is through adding the inner mass liquid ball in the opposite direction melting material and carry out rapid cooling to the melting material and handle, because the high temperature effect, water and light oil can vaporize rapidly, after the vaporization, gaseous water and light oil can spill over to the external world, can form porous hole in the melting material is inside on the one hand, on the other hand, the light oil of vaporization can be attached to on the inner wall in the hole that forms, make it when burning, its inside also can fully contact with oxygen, because the inflammability of light oil, can effectively improve this biomass fuel's fuel value, effectively reduce the incomplete fuel waste's that causes of burning condition, and simultaneously, the spilling over of liquid combustion improver in the combustion process, can be at the effect of the inside combustion improver that adds of biomass fuel in the in-process of burning, thereby further improve the internal combustion rate, improve the fuel value.

(2) The high-temperature melting temperature in S1 is 150-250 ℃.

(3) The standard of the rapid cooling in the S2 is as follows: in 3-5s, the temperature is reduced to 95-105 ℃, and the rapid temperature reduction treatment is to effectively avoid the condition that the endoplasmic reticulum ball is damaged in advance due to high temperature when entering the molten material, so that the endoplasmic reticulum ball can be effectively guaranteed to be damaged when the biomass fuel is combusted and used, and the liquid combustion improver 2 overflows in the process, so that the combustion rate of the biomass fuel is improved better.

(4) The pre-vaporized liquid is a mixed liquid of water and light oil, the volume mixing ratio of the water to the light oil is 1:1.5-2, when an inner liquid ball just falls into a molten material, the water and the light oil can be rapidly vaporized due to the high temperature effect, after vaporization, the gaseous water and the light oil can overflow to the outside, on one hand, a porous hole can be formed in the molten material, so that the permeability inside and outside the obtained biomass fuel is improved, the inside of the biomass fuel can be fully contacted with oxygen during combustion, and further the combustion value is improved, on the other hand, the vaporized light oil can be attached to the inner wall of the formed hole, after rapid cooling, the vaporized light oil can recover to be in a liquid state again and stay on the biomass fuel due to temperature reduction, due to the easy combustibility of the light oil, the combustion value of the biomass fuel can be effectively improved, the combustion can be more thorough, and the condition of fuel waste caused by incomplete combustion can, meanwhile, the pre-vaporized liquid can absorb a large amount of heat during vaporization, so that the temperature near the inner medium liquid ball is effectively reduced, and the inner protective ball shell and the liquid combustion improver inside the inner protective ball shell are effectively protected from being influenced by high temperature when entering the molten material.

(5) The inner material liquid ball comprises an inner protective ball shell, the inner protective ball shell is filled with a liquid combustion improver, the outer end of the inner protective ball shell is wrapped by an outer semi-permeable layer, the pre-vaporized liquid is filled in the outer semi-permeable layer, after the biomass fuel is combusted, the inner protective ball shell is gradually cracked under the high-temperature condition, the liquid combustion improver inside the inner protective ball shell gradually overflows at the moment, the combustion-supporting effect from inside to outside is achieved, the combustion value of the biomass fuel is further improved, and the waste caused by incomplete fuel combustion is reduced.

(6) The outer semi-permeable layer has a microporous structure on the surface, the inner diameter of the micropores is smaller than the liquid molecular particle size of the pre-vaporized liquid, so that the pre-vaporized liquid has larger intermolecular distance before vaporization and cannot pass through the micropores.

(7) Interior protective spherical shell is made for stereoplasm combustible material, and interior protective spherical shell ignition point is less than this biofuel ignition point, makes biomass fuel when burning, and the interior protective spherical shell that is located biomass fuel can be destroyed because of high temperature from inside to make the liquid combustion improver in the interior protective spherical shell spill over, and then realizes carrying out combustion-supporting effect to biomass fuel from the interior.

(8) Outer semi-permeable layer outer end fixedly connected with a plurality of evenly distributed's water guide fiber pipe, water guide fiber pipe wherein one end imbed to outer semi-permeable in situ and with the contact of pre-vaporization liquid for hydroenergy in the pre-vaporization liquid can ooze outer semi-permeable layer along water guide fiber pipe, thereby make outer semi-permeable in-layer water reduce gradually, outer semi-permeable is increased gradually by the space of vacating, when making light oil vaporization, make things convenient for outwards to spill over more.

(9) The water guide fiber pipe is made of super absorbent fibers, so that water in the pre-vaporized liquid can be transported outside the outward semi-permeable layer, the surface of the water guide fiber pipe is coated with the oleophobic coating, and light oil is effectively prevented from seeping outside the outward semi-permeable layer along the water guide fiber pipe, so that the water and the light oil are effectively separated, and the vaporization effect is better.

Drawings

FIG. 1 is a principal flow diagram of the present invention;

FIG. 2 is a schematic structural diagram of a finished biomass fuel product of the present invention;

FIG. 3 is a schematic structural view of the front side of the inner mass liquid sphere of the present invention;

fig. 4 is a schematic structural diagram at a in fig. 3.

The reference numbers in the figures illustrate:

1 inner protective spherical shell, 2 liquid combustion improver, 3 outer semi-permeable layer, 4 pre-vaporized liquid and 5 water guide fiber pipe.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.