JP4173075B2 - Asphalt plant - Google Patents

Description

  The present invention relates to an asphalt plant for producing an asphalt mixture that is a road pavement material.

The asphalt plant is equipped with various facilities for producing asphalt mixtures. Commercial power that operates plant equipment as an energy source for operating each facility and liquid such as heavy fuel oil A or city gas used for aggregate heating Or gaseous fuel is used. In this asphalt plant, various energy saving measures, such as improving the heating efficiency of the dryer which is an aggregate heating apparatus, are implemented and cost reduction is aimed at. In addition, a cogeneration system is generally known as one of effective methods for cost reduction.
JP 2001-70996 A

  However, in the asphalt plant, although further cost reduction is desired, the current situation is that the cost is not reduced by using a cogeneration system.

  This invention makes it a subject to provide the asphalt plant which reduces a cost by reducing an energy source using a cogeneration system in view of said point.

In order to solve the above problems, in the asphalt plant according to claim 1 of the present invention, the aggregate is heated to a predetermined temperature by a dryer which is an aggregate heating device, and the heated aggregate is classified according to particle size. After storing by sieving, the coagulation system is installed in the asphalt plant that produces the asphalt mixture by adding a predetermined amount of the stored aggregate to the mixer and adding and mixing molten asphalt. A cogeneration system exhaust comprising: a preheating drying dryer for preheating and drying the aggregate while driving the device; and a transport device for supplying the preheated and dried aggregate to the dryer that is the aggregate heating device. after pre-heating and drying the aggregate by feeding gas into the preheating drying in dryer, the aggregate aggregate pressurized It is characterized by being configured to heat to a predetermined temperature by feeding the dryer is an apparatus.

The asphalt plant according to claim 2 of the present invention is characterized in that an aggregate storage silo for temporarily storing aggregate discharged from the preheating dryer is provided.

According to the asphalt plant of the first aspect of the present invention, the plant equipment is driven by the electrical output from the cogeneration system, and the exhaust gas of the cogeneration system is fed into the preheating and drying dryer to reserve the aggregate . After heating and drying, this aggregate was sent to a dryer, which is an aggregate heating device, and heated to a predetermined temperature. The exhaust heat of the cogeneration system was used as the heat source, and the exhaust heat that was abandoned by commercial power was boned. It can be effectively used for heat drying of the material, and the cost can be reduced by reducing the required energy source.

According to the asphalt plant of the second aspect of the present invention, since the aggregate storage silo for temporarily storing the aggregate discharged from the preheating drying dryer is disposed, any amount from the aggregate storage silo. Can be supplied to the dryer, which is an aggregate heating device, and even when no asphalt mixture is shipped in the daytime, the cogeneration system is operated and the preheated and dried aggregate is temporarily stored in the aggregate storage silo. Can be convenient.

According to the asphalt plant according to claim 1, wherein according to the present invention, established the cogeneration system to aide the plant, and drives the plant equipment by electrical output from the cogeneration system. This cogeneration system does not have to supplement the power of all equipment in the asphalt plant, but it can be used for a large amount in the daytime, for example, it can supplement the power of some plant equipment such as dryers, exhaust fans, and transport equipment. Other equipment should use commercial power. Also, in order to effectively use the heat stored in the exhaust gas of the cogeneration system, a preheating dryer for preheating and drying the aggregate, and a transport for supplying the preheated and dried aggregate to the dryer that is the aggregate heating device. Device. Then, exhaust gas from the cogeneration system is sent into the preliminary drying dryer to preheat and dry the aggregate, and then the aggregate is sent to a dryer which is an aggregate heating device and heated to a predetermined temperature. In this preheating drying, it is effective to dry only sand having a relatively high moisture ratio in the aggregate. As a result, it is possible to reduce the fuel cost required for the aggregate heating and drying and the power cost for operating the asphalt plant.

According to the asphalt plant according to claim 2, wherein according to the present invention, disposing the aggregate storage silo for temporarily storing the aggregate discharged from the preheating drying dryer. At the time of shipment of the asphalt mixture, an arbitrary amount of aggregate is discharged from the aggregate storage silo, heated to a dryer that is an aggregate heating device by a conveying device, and heated to a predetermined temperature. Plant equipment that is driven by electrical output from the cogeneration system can store aggregates if it is used as an air-dried dryer, exhaust fan, or transport device even when no asphalt mixture is shipped in the daytime. With the silo, the cogeneration system can be operated even when there is no shipment, and the aggregate can be heated and dried by the exhaust gas, reducing the aggregate heating and drying fuel and the power cost of operating the asphalt plant.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a schematic view of an asphalt plant according to the present invention. The asphalt plant 1 stores a dryer 2 that heats the aggregate, a dust collector (not shown) that captures dust scattered from the dryer 2, and a heated aggregate. The plant body 3 to be weighed and mixed, the other incidental equipment, and the like, and the cogeneration system 4 are included.

  The dryer 2 rotatably supports a cylindrical drum provided with a large number of scraping blades on the inner periphery thereof, and the aggregate supplied from the aggregate hopper 5 via the belt conveyor 6 is scraped with the scraping blades. While being rolled down in the drum, it is brought into contact with hot air fed from the burner 7 and heated up to about 160 ° C., and then supplied to the plant body 3 via the bucket elevator 8 which is a transfer device. Yes. The burner 7 uses liquid or gaseous fuel such as A heavy oil or city gas.

  The plant body 3 includes a storage bin 10 provided with a vibrating sieve 9 that screens heated aggregate according to particle size, a stone powder storage bin 12 that stores stone powder supplied from a stone powder elevator 11, and an aggregate meter disposed below them. It is composed of a tank 13, a stone powder measuring tank 14, an asphalt measuring tank 15, a mixer 16, and the like.

  Various plant equipment such as the dryer 2 is driven by the electrical output of the cogeneration system 4, and the exhaust gas of the cogeneration system 4 is supplied into the dryer 2 from the burner 7 side of the dryer 2 and merged with the hot air sent from the burner 7. Heat the aggregate. Note that the power generation output of the cogeneration system 4 does not have to supplement all the power of the asphalt plant, but is selected according to the power load situation of the asphalt plant factory and is used greatly in the daytime, for example, the dryer 2, It is assumed that the power of a transport device such as an exhaust fan and bucket elevator 8 can be supplemented, and the power necessary for the remaining plant may be handled by commercial power.

  And in the asphalt plant 1 of the said Example, while driving a plant apparatus with the electrical output of the cogeneration system 4, the waste gas of the cogeneration system 4 is supplied in the dryer 2, and it uses as a heat source of aggregate heating. The dryer that supplies the exhaust gas of the cogeneration system 4 is not limited to the dryer 2 that heats new aggregates. If a dryer that heats asphalt pavement waste is provided, the dryer for heating the waste material is used. Waste materials can also be heated by supplying exhaust gas.

  As described above, in the asphalt plant of the above embodiment, the exhaust gas from the cogeneration system 4 is used to assist the heating and drying of the aggregate in the dryer 2, so the combustion amount of the burner 7 is the retained heat amount of the exhaust gas. As a result, the fuel cost can be reduced.

  FIG. 2 shows another embodiment. In FIG. 2, the same reference numerals as those in FIG. 1 denote the same components, and the description thereof is omitted. In FIG. 2, an aggregate preheating / drying equipment 17 for preliminarily heating and drying the aggregate is additionally installed, and equipment such as a preheating / drying dryer 18 and an aggregate storage silo 19 are provided. The preheating and drying dryer 18 has substantially the same structure as the dryer 2 described above, and rotatably supports a cylindrical drum having a large number of scraping blades (not shown) on its inner peripheral portion. The exhaust gas from the cogeneration system 4 is supplied to one end of the preheating dryer 18 and is installed on the other end of the preheating dryer 18 (not shown). The aggregate stored in the aggregate hopper 21 is supplied into the drum through the belt conveyor 20, and the aggregate is heated and dried to a certain temperature while passing through the drum.

  It is preferable that the aggregate hopper 21 stores sand having a relatively high water content in the aggregate, and that the sand content is preheated and dried by the dryer 18. Further, an exhaust flue (not shown) is connected to the exhaust gas discharge side of the preheating dryer 18, and the exhaust gas is sucked by an exhaust fan (not shown) disposed downstream of the exhaust flue, and a dust collector ( It is discharged from the chimney via a not-shown).

  The aggregate heated by the preheating dryer 18 is lifted by the bucket elevator 22 and temporarily stored in the aggregate storage silo 19. The aggregate storage silo 19 has a heat insulation structure as necessary. The aggregate discharged from the aggregate storage silo 19 can be supplied to the dryer 2 in an arbitrary amount by a transport device 23 such as a conveyor.

  During operation of the cogeneration system 4, exhaust gas from the cogeneration system 4 is supplied to the preheating dryer 18, while aggregate discharged from the aggregate hopper 21 is preheated by the belt conveyor 20. The aggregate is heated and dried to a suitable temperature. The heated and dried aggregate is supplied to the aggregate storage silo 19 by the bucket elevator 22 and temporarily stored. Then, when the dryer 2 is operated, the aggregate cut out from the aggregate hopper 4 is supplied to the dryer 2 by the belt conveyor 5. At this time, the aggregate stored in the aggregate storage silo 19 is supplied via the transport device 23. An appropriate amount is supplied to the dryer 2 and heated in a mixed form, and heated to a predetermined temperature, for example, 160 ° C. At this time, only the aggregate supplied from the aggregate silo 19 may be supplied to the dryer 2 and heated.

  As described above, in the asphalt plant 1 of the above embodiment, the plant equipment is driven by the electrical output of the cogeneration system 4 and the exhaust gas of the cogeneration system 4 is supplied to the preheating drying dryer 18 to heat the aggregate. If it is dried, when it is supplied to the dryer 2 and heated to a predetermined temperature, the combustion amount of the burner 7 can be reduced and the fuel cost can be reduced.

  In the above embodiment, the aggregate preliminarily heated and dried by the preheating and drying dryer 18 is temporarily stored in the storage silo 19, but the aggregate discharged from the preheating and drying dryer 18 is used as the dryer. 2 may be directly supplied. In addition, as a device for preheating and drying the aggregate, instead of a rotary dryer system such as the preheating and drying dryer 18, another device for bringing the exhaust gas into contact with the aggregate or a pipe for passing the exhaust gas through the aggregate storage facility is provided. Various preheating and drying equipment may be used such as disposing and indirectly heating the aggregate.

It is the schematic which shows the asphalt plant which concerns on this invention. It is the schematic of the asphalt plant which shows the other Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Asphalt plant 2 ... Dryer 3 ... Plant main body 4 ... Cogeneration system 17 ... Aggregate preheating drying equipment 18 ... Preheating drying dryer 19 ... Aggregate storage silo

Claims (2)

The aggregate is heated to a predetermined temperature with a dryer, which is an aggregate heating device, and the heated aggregate is sieved and stored according to particle size, and then the stored aggregate is discharged to a mixer and a molten asphalt is added and mixed. In an asphalt plant that produces asphalt mixtures, a cogeneration system is installed , the plant equipment is driven by the electrical output from the cogeneration system, and a preheating drying dryer that preheats and drys the aggregate, and a preheated drying A transport device for supplying the aggregate to the dryer which is the aggregate heating device, and sending the exhaust gas of the cogeneration system into the preheat drying dryer to preheat and dry the aggregate. the characterized by being configured to heat to a predetermined temperature by feeding the dryer is aggregate heating device Scan asphalt plant. The asphalt plant according to claim 1, further comprising an aggregate storage silo for temporarily storing aggregate discharged from the preheating dryer .

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