BE1028375B1 - Process for the preparation of a sustained release carbon based fertilizer for hot air cured tobacco - Google Patents

Abstract

The present invention relates to a process for the preparation of a sustained release carbon-based fertilizer for air-cured tobacco, which comprises: step 1: collecting fresh leaves, leaves near the roots, branches , point leaves, flowers, twigs that have no value for roasting and processing waste and cause them to burn incompletely in the absence of air; collect the solid waste generated, dry it, and carry out in step 2 an ultramicro-grinding to obtain carbonized and ultramicro-grinded particles; then in step 3: mix the carbonized particles obtained in step 1 and the ultramicro-ground base fertilizer obtained in step 2 and package in bags.

Description

DESCRIPTION Process for the preparation of a sustained release carbon-based fertilizer for hot air cured tobacco

TECHNICAL FIELD The present invention relates to the technical field of tobacco planting, in particular to a process for the preparation of a sustained-release carbon-based fertilizer for hot air-cured tobacco.

TECHNICAL BACKGROUND In China, tobacco is an important economic crop, and as a typical potassium-requiring crop, it requires a large amount of potassium. Potassium not only affects the production and development of tobacco, but also is one of the important indicators for evaluating the quality of tobacco. A high relative potassium content of tobacco promotes an improvement in the combustibility and smoking power of tobacco, which is very important for improving the color and flavor of tobacco. By time-release potassium fertilizer for air-cured tobacco is meant a fertilizer which has a low release rate of potassium nutrients and a longer release period, and can meet the needs of air-cured tobacco production. hot air throughout the production period of hot air cured tobacco. Compared with conventional types potash fertilizers, time-release potash fertilizer has the advantage of prolonged release of potassium nutrients, satisfying the necessary nutrient requirements for the whole period of tobacco production, reducing the application amount of the potash. potash fertilizer, and saving resources and improving the yield of potash fertilizer, therefore, which is used more and more widely in tobacco planting. At present, the most widely used time-release potassium fertilizer for air-cured tobacco includes coating material mainly including inorganic substances (such as silicon, sulfur, gypsum, phosphates , diatomaceous earth, etc.), organic polymers (such as gum arabic, gelatin, natural rubbers, polyethylene, urea-formaldehyde condensates, thermosetting resins, etc.) and organic and inorganic compounds ( such as sugar polymers, polyvinyl alcohol, starches, fatty acids, etc.). Most of the existing hot-air-cured tobacco time-release potassium fertilizers have many defects, such as high production cost, complicated process flow, and secondary pollution on the soil environment caused by the covering material remaining in the soil after the release of nutrients. It is well known that bio-charcoal is an extremely carbon-rich charcoal, which is obtained by carbonization of plant wastes such as woods, grasses and corn stalks via high-temperature decomposition in a low-temperature environment. oxygen content. Such charcoal obtained from plant materials to fix carbon is called "biological charcoal" by scientists. It is based on the following theory: any biomass, whether plant or animal, can burn in the absence of oxygen and form charcoal.

By hot air cured tobacco waste is meant fresh leaves, leaves near the roots, branches, point leaves, flowers, twigs that have no value for roasting and processing waste . In China, tobacco waste resources are very rich, improper treatment will cause adverse effects. Most of the existing methods for treating tobacco waste are relatively less advanced, with a very low utilization rate and a low ecological standard.

Therefore, it is necessary to solve the technical problems of improving the production process of time-release fertilizer, fully and effectively utilizing waste tobacco in the air-cured tobacco industry.

DESCRIPTION OF THE INVENTION The object of the present invention is to provide a process for the preparation of a sustained-release carbon-based fertilizer for hot air-cured tobacco, so as to solve the shortcomings of most fertilizers existing sustained-release products, such as high production cost, complicated process flow and secondary pollution on the soil environment caused by the coating material remaining in the soil after the release of nutrients; and to solve problems of existing methods for treating tobacco waste which are relatively less advanced, with a very low utilization rate and a low ecological level.

For the above purpose, the technical solution of the present invention is as follows: A process for preparing a sustained-release carbon-based fertilizer for hot-air-cured tobacco comprises the following steps: Step 1: Carbonization of fine leaf waste Collect fresh leaves, leaves near roots, branches, point leaves, flowers, twigs that have no value for roasting and processing waste and burn them in a manner incomplete in the absence of air; Collect the solid wastes generated during the above process, dry them, then transfer them to an ultramicro-grinder to perform ultramicro-grinding, and obtain carbonized particles for use; Step 2: Ultramicro-grinding base fertilizer Process a base fertilizer for air-cured tobacco into ultramicro-grind particles for use; Step 3: Preparation of the carbon-based sustained-release fertilizer Mix the carbonized particles obtained in step 1 and the base fertilizer — ultramicro-ground obtained in step 2 and package in fertilizer bags for storage .

The technical solution of the present invention has advantages such as low production cost and simple relative process flow, the carbonized particles remaining in the soil after nutrient release will not pollute the soil environment, but increase the soil fertility; moreover, the present invention makes it possible to use tobacco waste very efficiently with a very high utilization rate while respecting the environment.

In addition, the mass percentages of carbonized particles and ultramiro-ground base fertilizer in step 3 are 70% and 30%, respectively. This configuration allows that in a moist soil environment, the nutrients necessary for the production of air-cured tobacco are easily absorbed by the root hairs or root tips of the plants, thus improving the efficiency of the fertilizer.

In addition, the ultramicro grinding equipment in step 2 is a ball mill, and the crushed particle size is 20 to 40 microns.

This configuration achieves stable operation and reliable work, and enables carbonized particles and special base fertilizer to be processed into ultramicro particles for a relatively short time, thereby reducing material waste and processing cost.

In addition, the carbonized particle size is 20 to 40 microns and the ultramicro-milled particle size is 20 to 40 microns.

This configuration allows the ultramicro-grinded base fertilizer and the carbonized particles to be well mixed, so that the carbon-based sustained-release fertilizer product is mixed homogeneously, thus avoiding the formation of layers and improving the fertilizer efficiency.

In addition, the special base fertilizer for carbon-based sustained-release fertilizer is one or more selected from potassium sulfate, potassium chloride, potassium nitrate, nitrogen-phosphorus compound fertilizer -potassium, potassium humate and potassium magnesium sulphate.

This configuration allows easy adjustment of the formula of the carbon-based sustained release fertilizer, so that the composition is adjusted according to the level of soil fertility and the balance of the elements, further reducing the amount fertilizer application and improving fertilizer efficiency.

A method of applying the sustained-release carbon-based fertilizer to air-cured tobacco prepared by the above method includes the following steps: Step 1: Make indentations on the tobacco ridges; Step 2: Apply time-release carbon-based fertilizer to the hollows, backfill a small amount of soil, sprinkle with a small amount of water, and mix the time-release carbon-based fertilizer and soil well backfilled, then make cavities in the wet, well-mixed earth and transplant tobacco seedlings; Step 3: Backfill and cover with mulch films, then make holes at the positions corresponding to the mulch films to push the tobacco seedlings out of the mulch films through the holes and cover the holes with soil.

The method of applying the fertilizer according to the present invention is simple and also allows a very good growth of tobacco, moreover, the application amount of the sustained-release carbon-based fertilizer is relatively small, which dramatically reduces the cost of tobacco planting, improves the economic value of tobacco, and provides a very large profit margin for tobacco growers.

In addition, in step 1, the depth of the hollow is 20cm to 30cm, the diameter of the bottom of the (5080 hollow is 12cm to 16cm, the diameter of the surface of the hollow is 20cm to 30 cm and the distance between two adjacent hollows is 80 cm to 100 cm This configuration further improves the growth of tobacco and increases the economic value of tobacco.

5 In addition, the application amount of the carbon-based sustained-release fertilizer is 60-80 kg/mu. This configuration improves the growth of tobacco and reduces the application amount of the carbon-based sustained-release fertilizer, increases the potassium content of tobacco, greatly increases the combustibility and smokability of tobacco, and improves the color and l tobacco aroma.

Also, the hole size on the mulch film in step 3 is 6cm-8cm. This configuration allows good air permeability and promotes the rapid growth of tobacco plants.

DETAILED PRESENTATION OF EMBODIMENT The present invention can be described in more detail below via the examples, so that those skilled in the art can better understand the present invention.

According to the present invention, a process for the preparation of a sustained-release carbon-based fertilizer for hot air-cured tobacco comprises the following steps: Step 1: Carbonization of fine leaf waste Collecting fresh leaves, leaves near roots, branches, point leaves, flowers, twigs that have no value for roasting and processing waste and cause them to burn incompletely in the absence of air; Collecting the solid wastes generated during the above process, drying them, then transferring them to an ultramicro crusher to perform ultramicro crushing, and obtain carbonized and ultramicro crushed particles for use; Step 2: Grinding the special base fertilizer for air-cured tobacco Prepare the special base fertilizer for air-cured tobacco reasonably according to the nutritional requirements of the air-cured tobacco. hot air and soil fertility, then ultramicro grind with a ball mill to get the ultramicro grinded particles of 20-40 microns to use; Step 3: Preparing the time-release carbon-based fertilizer

Mix the carbonized and ultramicro-ground particles obtained in step 1 and the ultramicro-ground special base fertilizer obtained in step 2 and package in fertilizer bags for storage. The technical solution of the present invention has advantages such as low production cost and simple relative process flow, the carbonized particles remaining in the soil after nutrient release will not pollute the soil environment, but increase the soil fertility; moreover, the present invention makes it possible to use tobacco waste very efficiently with a very high rate of use while respecting the environment.

Preferably, the mass percentages of the carbonized particles and of the ultramirro-ground base fertilizer in step 3 are respectively 70% and 30%. This configuration allows that in a moist soil environment, the nutrients necessary for the production of air-cured tobacco are easily absorbed by the root hairs or root tips of the plants, thus improving the efficiency of the fertilizer. In fact, the mass percentages of carbonized particles and ultramiro-ground base fertilizer in step 3 can also be determined depending on many factors such as planting area, type of hot air-cured tobacco and the local climatic environment.

Preferably, the ultramicro grinding equipment in steps 1 and 2 is a ball mill, and the size of the crushed particles is 20 to 40 microns. This configuration achieves stable operation and reliable work, and enables the carbonized particles and special base fertilizer to be processed into ultramicro particles for a relatively short time, thereby reducing material waste and processing cost. In fact, the ultramicro crushing equipment can also be chosen according to actual situations, as long as it can process the carbonized particles and the special base fertilizer for hot air cured tobacco into ultramicro particles.

Preferably, the size of the carbonized particles is 20 to 40 microns, and the particle size of the special base fertilizer for hot air-cured tobacco is 20 to 40 microns. This configuration makes it possible to mix the ultramiro-grinded base fertilizer and the carbonized particles well, to avoid the formation of layers once well mixed, to facilitate homogeneous application, to further reduce the amount of application of the fertilizer and improve the efficiency of fertilizer. In fact, the carbonized particle size and the particle size of the special base fertilizer for hot air cured tobacco can also be determined according to actual situations.

Preferably, the special base fertilizer for air-cured tobacco is one or more selected from potassium sulfate, potassium chloride, potassium nitrate, nitrogen-phosphorus-potassium compound fertilizer , potassium humate and potassium magnesium sulphate.

This configuration allows to provide an adjustable formula of the sustained-release carbon-based fertilizer, so that the composition can be adjusted at any time according to the nutritional needs of the hot air-cured tobacco and the fertility of the soil. , further reducing the fertilizer application amount and improving the fertilizer efficiency.

In fact, the type of the basic fertilizer can also be determined depending on many factors such as the planting area, the type of tobacco air cured and the local climate environment.

A method of applying the sustained-release carbon-based fertilizer to air-cured tobacco prepared by the above method includes the following steps: Step 1: Make indentations on the tobacco ridges; Step 2: Apply time-release carbon-based fertilizer to the hollows, backfill a small amount of soil, sprinkle with a small amount of water, and mix the time-release carbon-based fertilizer and soil well backfilled, then make cavities in the wet, well-mixed earth and transplant tobacco seedlings; Step 3: Backfill and cover with mulch films, then make holes at the positions corresponding to the mulch films to push the tobacco seedlings out of the mulch films through the holes and cover the holes with soil.

The method of applying the fertilizer according to the present invention is simple and also allows a very good growth of tobacco, moreover, the application amount of the sustained-release carbon-based fertilizer is relatively small, which dramatically reduces the cost of tobacco planting, improves the economic value of tobacco, and provides a very large profit margin for tobacco growers.

Preferably, in step 1, the depth of the hollow is 20 cm to 30 cm, the diameter of the bottom of the hollow is 12 cm to 16 cm, the diameter of the surface of the hollow is 20 cm to 30 cm and the distance between two adjacent hollows is 80 cm to 100 cm.

This configuration further improves the growth of the tobacco and increases the economic value of the tobacco. In fact, the depth of the hollow, the diameter of the bottom of the hollow, the diameter of the surface of the hollow and the distance between two adjacent hollows in step 1 can also be determined according to many factors such as the planting area, the type of air-cured tobacco and the local climate environment.

Preferably, the application amount of the carbon based sustained release fertilizer is 60-80 kg/mu. This configuration improves the growth of tobacco and reduces the application amount of the carbon-based sustained-release fertilizer, increases the potassium content of tobacco, greatly increases the combustibility and smokability of tobacco, and improves the color and l tobacco aroma.

In fact, the application amount of the carbon-based sustained-release fertilizer can also be determined depending on many factors such as the planting area, the type of hot air-cured tobacco and the climatic environment. local.

Preferably, the size of the hole on the mulch film is 6 cm to 8 cm. This configuration allows good air permeability and promotes the rapid growth of tobacco plants. In fact, the size of the hole on the third mulch film in step 3 can also be determined depending on many factors such as the planting area, the type of tobacco air cured and the local climate environment. .

The above embodiments are only illustrative for describing the principles and effects of the present invention, instead of limiting the present invention. Anyone familiar with this technology can modify or change the embodiments above without departing from the spirit and scope of the present invention. It should be noted that all modifications and changes made by those skilled in the art mastering the necessary knowledge without departing from the spirit and the technical idea discovered by the present invention are included within the scope of the present invention.

Claims (9)

1. Process for the preparation of a sustained-release carbon-based fertilizer for hot-air-cured tobacco, characterized in that it comprises the following steps: Step 1: Carbonization of fine leaf waste Collecting fresh leaves , leaves near the roots, branches, point leaves, flowers, twigs which have no value for roasting and processing waste and cause them to burn incompletely in the absence of air; Collecting the solid wastes generated during the above process, drying them, then transferring them to an ultramicro crusher to perform ultramicro crushing, and obtain carbonized and ultramicro crushed particles for use; Step 2: Ultramicro-grinding base fertilizer Process a base fertilizer into ultramicro-grind particles for use; Step 3: Preparation of time-release carbon-based fertilizer for air-cured tobacco Mix the carbonized particles obtained in step 1 and the ultramicro-ground particles of base fertilizer obtained in step 2 and package in fertilizer bags for storage. 2. Process for the preparation of a carbon-based sustained-release fertilizer for hot-air-cured tobacco according to claim 1, characterized in that the mass percentages of the carbonized particles and of the ultramicro-milled base fertilizer at stage 3 are 70% and 30% respectively. 3. Process for the preparation of a sustained-release carbon-based fertilizer for hot-air-cured tobacco according to claim 2, characterized in that the ultramicro-grinding equipment in step 2 is a grinder with balls. 4. A process for the preparation of a sustained-release carbon-based fertilizer for hot-air-cured tobacco according to claim 3, characterized in that the size of the carbonized particles is 20 to 40 microns, and the size of the ultramicro-grinded particles of the bottom fertilizer is 20 to 40Microns. 5. Process for preparing a carbon-based sustained-release fertilizer for hot-air-cured tobacco according to claim 4, characterized in that, the base fertilizer for the sustained-release fertilizer is one or several selected from potassium sulfate, potassium chloride, potassium nitrate, nitrogen-phosphorus-potassium compound fertilizer, potassium humate and potassium magnesium sulfate. 6. A method of applying the sustained-release carbon-based fertilizer for hot-air-cured tobacco prepared according to claim 5, characterized in that it comprises the following steps: Step 1: Making hollows on the ridges of tobacco; Step 2: Apply time-release carbon-based fertilizer to the hollows, backfill a small amount of soil, sprinkle with a small amount of water, and mix the time-release carbon-based fertilizer and soil well backfilled, then make cavities in the wet, well-mixed earth and transplant tobacco seedlings; Step 3: Backfill and cover with mulch films, then make holes at the positions corresponding to the mulch films to push the tobacco seedlings out of the mulch films through the holes and cover the holes with soil. 7. Method of applying fertilizer according to claim 6, characterized in that in step 1, the depth of the hollow is from 20 cm to 30 cm, the diameter of the bottom of the hollow is from 12 cm to 16 cm, the diameter of the surface of the hollow is 20 cm to 30 cm, and the distance between two adjacent hollows is 80 cm to 100 cm. 8. Fertilizer application method according to claim 7, characterized in that, the application amount of the carbon based sustained release fertilizer is 60 to 80 kg/mu. 9. Fertilizer application method according to claim 8, characterized in that the size of the hole on the mulch film in step 3 is 6 cm to 8 cm.