RU116496U1 - TECHNOLOGICAL COMPLEX FOR THE PRODUCTION OF Lump FUEL PEAT - Google Patents

Abstract

A technological complex for the production of lump fuel peat, including a section for the extraction of milled peat, a warehouse of peat raw materials, connected by a transport line with a section for processing peat located in the workshop for the year-round production of lump fuel peat, consisting of a line for feeding and processing peat, equipped with sequentially installed and interconnected conveyors, a milled peat warehouse, a separator, a metering hopper, a mixer, a press extruder, a dryer, a heat generator and a finished product warehouse, as well as a filler feed and processing line, equipped with a series of installed and interconnected conveyors: a filler warehouse, a metering hopper and a crusher connected with a mixer and a heat generator, characterized in that the peat supply and processing line is additionally equipped with a scrubber-heat exchanger connected on one side with a gas duct with a dryer, and on the other hand with a water supply system, a settling tank, a pump w lamina water and mixer.

Description

The utility model relates to the mining and processing industries, namely the production of milled peat raw materials of local communal lump fuel used in boilers, heat and gas generators.

Known technological complex for the production of lumpy fuel peat (RU No. 67580, C10F 7/04, 10.27.2007), including a site for the extraction of excavated peat with a stackable stack of raw peat, connected by a transport line to a peat processing section equipped with a peat supply line equipped with sequentially installed and interconnected conveyors peat warehouse, separator, hopper, mixer and press extruder, dryer, heat generator and finished goods warehouse, as well as the feed line I equipped serially fitted and interconnected by a conveyor for material filler, the separator hopper and crusher, associated with one hand with mixer peat supply line, and on the other - with a heat source that is connected to a dryer associated with a ventilated warehouse of finished products.

The disadvantages of the known technological complex include the significant complexity and energy consumption of the production and processing of frozen peat both in winter using an excavator and its subsequent transportation with a dump truck to a stackable pile, and in the summer period due to the increased humidity of peat mass before molding (about 80%) , which leads to a significant expenditure of time and energy for drying pieces of peat to conditional humidity. There is a loss of peat raw materials with a screener separator including large wood and plant residues, as well as heat loss, with the spent drying agent leaving the dryer.

The objective of the utility model is the development of a technological complex for the production of lumpy peat from milled peat.

The technical result of the utility model is the possibility of wasteless processing of milled peat of increased substandard humidity into lumpy fuel.

The task and the specified technical result are achieved by the fact that in the technological complex for the production of lumpy peat fuel, which includes a milling peat extraction section connected by a transport line to a peat processing section located in the year-round production site of lumpy peat peat, consisting of a peat supply and processing line, equipped with a conveyor, a coarse fraction separator, a hopper, a mixer, a press extruder, a dryer with a heat generator and a finished product warehouse cations, as well as a filler supply and processing line equipped with sequentially installed and interconnected filler storage conveyor, a hopper and a crusher connected on one side with a mixer of a peat supply and processing line, and on the other with a heat generator connected to the dryer, associated with a ventilated warehouse of finished products. According to a utility model, a scrubber-heat exchanger is additionally installed, connected on one side by pipelines to a dryer and water supply system, and on the other through a water supply system and a slurry pump with a mixer and / or sump.

The utility model is illustrated by a diagram where a technological complex for the production of lumpy fuel peat is presented.

The technological complex for the production of lumpy peat fuel contains a milling peat extraction section 1, on which, if possible, on a dry land there is a peat raw material warehouse 2 connected by a transport line 3 up to 20 km long with a peat processing section 4, which is located in workshop 5 for year-round lumpy peat production peat. Shop 5 includes sequentially installed and interconnected conveyor: a milling peat warehouse 6, a separator 7, a hopper 8, a mixer 9, a press extruder 10, a dryer 11 connected at the inlet to the heat generator 12, and at the outlet with a scrubber 13, which on the one hand is connected by a water supply line to the sludge pump 14, and on the other hand, to a sump 15 and a sludge collector 16 connected by a sludge pump 14. The dryer 11 is connected to a finished product warehouse 17, which in turn is connected to a heat generator 12 by a conveyor 18. The specified equipment installed in series forms a peat supply and processing line 19. The filler supply line 20 (wood waste, etc.) includes: a filler warehouse 21, a filler hopper 22, a conveyor 23 and a crusher 24. From the crusher 24, the crushed filler enters the hopper - dispenser 8 and / or the heat generator 12.

The technological complex for the production of lumpy fuel peat works as follows.

In a known manner, in section 1, milled peat is extracted with a moisture content of 60-75% only in the summer period, and it is used year-round as a raw material for the production of lump fuel. In the process of harvesting, milled peat is taken out of the peat deposit to dry land, if possible, and dumped into stacks in a warehouse of 2 peat raw materials, from where transport line 3 up to 20 km long - to section 4 of peat processing in workshop 5. Extraction and storage of milled peat is carried out depending from weather conditions.

In shop 5, there is a line 19 for the supply and processing of peat and 20 for the supply and processing of filler, which ensures year-round production of lumpy fuel peat in the factory using milled peat of high humidity as a raw material. Line 19 feed and processing of peat operates as follows. Peat raw materials from warehouse 6 are transported by a transport line, to a separator 7 to remove large fractions (for example, larger than 10 mm), then to a hopper 8. Oversize product (screening of a separator 7) after processing in a crusher 24 is sent to combustion in a heat generator 12 or into the hopper 8. Peat with a particle size of less than 10 mm, accumulates in the hopper 8 and, if necessary, enters the mixer 9, where, together with the pump 14 added to it, heated sludge water and the filler crushed in the crusher 24 is mixed and ground impacts. The prepared homogeneous peat mass with a moisture content of 70-75% from the mixer 9 is continuously fed into the press extruder 10. The formed peat pieces are lined on the mesh cloth of the dryer 11. In the dryer 11, peat pieces are artificially dried to a moisture content of 60-65% by a mixture of air with flue gases, obtained as a result of burning fuel in the heat generator 12. The drying agent is saturated in the dryer 11 with moisture evaporated from peat pieces and then enters the heat exchange and dust-cleaning apparatus-scrubber 13, where heat is recovered Shackle couple due to washing with water vapor mixture coming from the water pipe or a special container. The sludge heated in the scrubber 13 is pumped by the pump 14 to prepare peat mass into the mixer 9. The excess sludge is discharged into the sump 15, where the sludge is clarified and precipitated into the sump 16. In the heat generator 12, fuel is burned, which is used as the resulting lump of peat coming from the warehouse 17 using the conveyor 18, or an oversize product (screening of peat and wood inclusions) from the separator 7, or other fuel. From the dryer 11 pieces of peat with a moisture content of 60-65% go to a ventilated warehouse 17 of finished products. In shop 5, at the same time as milled peat is fed for processing, accumulation and processing of filler (mainly wood and agricultural waste) is carried out. In the mixer 9, peat is mixed with the filler and the added slurry water, after which the mixture is sent to the press extruder 10. After molding, the fuel pieces go into the dryer 11, where the drying is carried out with a mixture of air and flue gases generated in the heat generator 12 when part of the filler is burned, processed in the crusher 24 or parts of the finished product from the warehouse 17. The products dried in the dryer 11 are sent to the warehouse 17 for final drying in ventilated stacks to a conditional humidity.

The given technological complex expands the technological capabilities of producing lumpy fuel peat with the use of substandard high humidity and utilization of production waste as raw materials of milled peat. Seasonal field extraction of milled peat raw materials with a volume equal to the annual demand of the year-round production of lump peat fuel favors the continuous production of fuel products and overcoming the difficulties of extraction and transportation of peat in the winter-spring period. Using for molding peat mass with a moisture content of 70-75% can significantly reduce the initial moisture content of the molded pieces of peat fuel, compared with known equipment, and thereby significantly reduce energy consumption for drying and increase the yield of finished products. To give the peat mass viscous-plastic properties, in preparation for molding, slurry water is used, heated in a scrubber 13 by utilizing the heat of the juice vapor of evaporated moisture in the dryer 11, which helps to save energy on the production of finished products and improve the environment. To ensure low-waste production, there is also provided the disposal of waste (sifting peat fractions larger than 10 mm), separated on a separator 7, crushed in a crusher 24 together with a filler and then sent, as a combustible fuel additive, to a heat generator 12 or mixer 9.

Currently, this development is at the stage of preparing a business plan for an innovative project for the production of municipal lump fuel from milled peat raw materials.

Claims (1)

A technological complex for the production of lumpy peat fuel, including a milling peat extraction section, a peat raw material storage warehouse, connected by a transport line to a peat processing section located in the year-round production of lumpy peat peat industry, consisting of a peat supply and processing line, equipped with sequentially installed and interconnected conveyors by a milled peat warehouse, a separator, a hopper, a mixer, a press extruder, a dryer, a heat generator and a warehouse m of finished products, as well as a filler supply and processing line, equipped with a sequentially installed and interconnected conveyor: filler warehouse, hopper-doser and crusher connected with a mixer and heat generator, characterized in that the peat supply and processing line is equipped with an additional scrubber-heat exchanger connected on one side of the flue with a dryer, and on the other hand, with a water supply system, a sump, a slurry water pump and a mixer.