RU2537529C2 - Production of wood chips from green waste at wood cutting area - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to lumbering and can be used for fuel chips from green waste at wood cutting area. Proposed method comprises collection of wood wastes, cutting of them to chips at wood cutting area and shipment to user. Prior to shipment, fuel chips produced at wood cutting area are subjected to dewatering by removal of free moisture therefrom.

EFFECT: higher process efficiency owing to increase in calorific value and decrease in density.

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Description

The invention relates to the logging industry and can be used in methods for the production of wood chips from logging waste in a cutting area.

A well-known technology for the production of fuel chips from logging waste, including felling residues for fuel chips in the cutting area, shipping it to the consumer (St. Petersburg Scientific and Technical Society "Pulp and Paper and Woodworking Industry", Technology and machines for logging operations, St. Petersburg State Polytechnic University, 2009, p. . 37).

There is also a known method of producing fuel chips from logging waste, including collecting logging waste, chopping it into fuel chips at a cutting site, shipping it to a consumer - a boiler house to receive thermal energy by burning it. (RU 2443102 C2, publ. 02.27.2012 - prototype).

Both technical solutions have the following disadvantages:

- low calorific value of the manufactured fuel chips due to its high humidity, because logging waste is located on the ground and strongly absorbs water, which does not ensure the efficient burning of such wood chips in the boiler unit;

- high costs of transport operations, because due to the transportation of wet chips, a small volume of transportation (we carry water) is carried out per unit of the vehicle and high fuel costs for transport due to the need for a large number of flights.

The technical task of the invention is to increase the efficiency of the technology for the production of fuel wood chips from logging waste in the cutting area by increasing the calorific value of the manufactured fuel chips by reducing its moisture in the cutting area before shipment to the consumer, as well as by reducing the density of dehydrated chips, which increases the volume of waste used vehicle unit and lower fuel costs for vehicles due to the possibility of reducing the number of flights.

This goal is achieved by the fact that in the method for the production of wood chips from logging waste in a cutting area, including collecting logging waste, chopping it into fuel chips in the cutting area and shipping to the consumer, the fuel chip obtained in the cutting area is dehydrated before being shipped to the consumer by removing free moisture.

The invention has the following differences from the prototype:

- before shipment to the consumer, the resulting fuel chips in the cutting area are subjected to dehydration by removing free moisture from it.

This will increase the efficiency of the technology for the production of fuel wood chips from logging waste in the cutting area by increasing the calorific value of the manufactured fuel chips by reducing its moisture in the cutting area before shipment to the consumer, as well as by reducing the density of dehydrated chips, which ensures an increase in the volume of transportation used by the transport unit funds and reduced fuel costs for transport vehicles due to the possibility of reducing the number of flights.

In the patent information fund we reviewed, no similar technical solutions and solutions with the claimed combination of features were found.

The invention is applicable and will be used in the industry in 2012-2013.

The method was performed by using special machines, the design of which was developed by the applicants and are objects of other security documents.

EXAMPLE 1 (prototype).

A method of producing fuel wood chips from logging waste in a cutting area included collecting logging waste, cutting them into fuel wood chips in the cutting area, and shipping the resulting chips to the consumer.

The dehydration operation was not performed. The moisture content of the resulting chips was approximately 80%, the density was 690-860 kg / m ³ , and the calorific value was in the range of 2700-3300 kcal / kg (depending on the type of wood).

EXAMPLE 2

The method for producing fuel wood chips from logging waste in a cutting area included collecting logging waste, chopping it into fuel wood chips in the cutting area and shipping the resulting chips to the consumer, and before shipping to the consumer, the resulting fuel chips in the cutting area were dehydrated by removing free moisture from it.

The dewatering operation was performed by centrifugation in a centrifuge mounted on a mobile chipper and driven by the chipper machine engine. The moisture content of the resulting chips was approximately 30%, the density was 490-630 kg / m ³ , and the calorific value was in the range of 3800-4500 kcal / kg (depending on the type of wood).

The centrifugal dehydration method is accepted by the applicants as the simplest mechanical method and the most suitable for use in the cutting area. In addition, it should be noted that the centrifuge is rotated from the chipper drive, which slightly increases the energy intensity of the process.

EXAMPLE 3

EXAMPLE 2 was carried out, while the dewatering operation was carried out by blowing with a warm agent, namely, exhaust gases from the drive of the mobile chipper in the form of an internal combustion engine, and subsequent centrifugation. The moisture content of the resulting chips was approximately 30%, the density was 490-630 kg / m ³ , and the calorific value was in the range of 3800-4500 kcal / kg (depending on the type of wood).

This example provided even greater efficiency compared to EXAMPLE 2, because less energy-consuming, since during dehydration, exhaust gases from the drive of a mobile chipper were additionally used.

EXAMPLE 4

EXAMPLE 2 was carried out, while the dewatering operation was carried out by blowing with hot flue gases obtained from burning part of the fuel chips in a heat generator installed on a mobile chipper, and subsequent centrifugation.

The moisture content of the resulting chips was approximately 30%, the density was 490-630 kg / m ³ , and the calorific value was in the range of 3800-4500 kcal / kg (depending on the type of wood).

This example also provided greater efficiency compared to EXAMPLE 2, because less energy-intensive, since they additionally used hot flue gases from a heat generator installed on a mobile chipper, obtained from burning about 15% of the resulting chips.

Examples (2-4) of the method for the production of wood chips from logging waste are highly effective for cutting conditions. They are especially useful in the conditions of operation of a system for the production of wood chips from logging waste, including interconnected areas for collecting logging waste, for the production of wood chips, transportation of fuel chips and a site for the use of fuel chips containing boiler room.

It should be noted that currently there is a tendency towards the creation of the above systems.

Thus, the invention allows to increase the efficiency of the technology for the production of fuel wood chips from logging waste in the cutting area by increasing the calorific value of the manufactured fuel chips by reducing its moisture in the cutting area before shipment to the consumer, as well as by reducing the density of the dehydrated chips, which increases the volume of removal used vehicle unit and reduction of fuel costs for transport vehicles due to the possibility of reducing the number of flights.

Information sources

1. St. Petersburg Scientific and Technical Society "Pulp and Paper and Woodworking Industry", Technology and machines for logging operations, SPbGLTA, 2009, p. 37.

2. RU 2443102 C2, publ. 02.27.2012 - a prototype.

Claims (1)

A method for the production of fuel wood chips from logging waste in a cutting area, including collecting logging waste, chopping it into fuel wood chips in a cutting area, shipping to a consumer, characterized in that prior to shipment to a consumer, the resulting fuel chips in a cutting area are dehydrated by removing free moisture from it.