RU52005U1 - LOW TEMPERATURE BITUMEN VACUUM BOILER - Google Patents

Abstract

The utility model relates to the field of construction and can be used for dehydration and heating of bitumen in the preparation of asphalt mixtures. The purpose of the utility model is to accelerate the process of preparing bitumen. The essence of the utility model lies in the fact that the low-temperature bitumen vacuum boiler containing the housing with technological pipes and heating elements further comprises an evaporation chamber located above the boiler and connected to it with flat trays sequentially located in it connected in a Z-shaped pattern, with the upper part the evaporation chamber through the left nozzle and the bitumen circulation pump is connected to the boiler, and through the right nozzle of the evaporation chamber, the crane, the condenser is placed th tubular cooler therein and a filter - a vacuum pump.

Description

The utility model relates to the field of construction and can be used for dehydration and heating of bitumen in the preparation of asphalt mixtures.

A known installation of dewatering bitumen with a dynamic tray system (US Pat. RU 2236495).

A known installation for dehydration of bitumen (application RU 2000116587).

A known installation for dehydration of bitumen (US Pat. RU 2184186).

The closest technical solution is the installation of cyclic action for dehydration and heating of bitumen to operating temperature (LB Mirotin, VV Silkin, V. Ya Bubes Industrial enterprises of road construction. M: Transport, 1986, p.76) containing a boiler with heating elements, a pump, technological pipes. When the boiler is filled with bitumen, the heating element is turned on and bitumen is dehydrated. Next, the bitumen is heated to the desired temperature and released to the consumer.

The disadvantage of this installation is the relatively long time of the process of dehydration of bitumen

The essence of the utility model lies in the fact that the low-temperature bitumen vacuum boiler containing a housing with process pipes and heating elements further comprises an evaporation chamber located above the boiler and connected to it with flat trays sequentially located in it connected in a Z-shaped pattern, while

the upper part of the evaporation chamber is connected to the boiler through the left nozzle and the bitumen circulation pump, and through the right nozzle of the evaporation chamber, a tap, a condenser with a tubular cooler placed in it, and a filter - with a vacuum pump.

The essence of the utility model is illustrated in the drawing.

A low-temperature bitumen vacuum boiler containing a housing 1 with heating elements 2, a discharge pump 3, technological nozzles 4. Above the boiler 1 is installed an evaporation chamber 5 connected to it. In the evaporation chamber 5 are located flat trays 6 connected in a Z-shaped pattern. In this case, the upper part of the evaporation chamber 5 is connected through the left pipe 7, the bitumen circulation pump 8 and process pipes 4 to the boiler, and through the right pipe 7, the valve 9 is connected to the condenser 10, in which the pipe cooler 11 is placed. The condenser 10 is connected through the filter 12 with vacuum pump 13.

The device operates as follows.

After loading bitumen into the boiler body 1, the electric heating element 2 is switched on through the upper pipe 4. The circulation pump 8 pumps bitumen to the upper part of the evaporation chamber 5 and through the left pipe 7 of the chamber 5, bitumen enters the upper tray 6. Bitumen flows along the flat trays 6 along Z- in a figurative pattern and flows from the lower flat tray back into the boiler body 1. An Ira using a vacuum pump 13 is pumped out of the evaporation chamber 5 and the boiler body 1, a vacuum is created in them, the boiling point of water decreases, therefore, dehydration performed at a temperature below 100 ° C. The processes of evaporation of water from bitumen are intensified when bitumen flows in a thin film along flat trays 6 from top to bottom. Steam air

the mixture is sucked out of the boiler 1 through the right pipe 7 of the evaporation chamber 5, the condenser 10, where water vapor and volatile hydrocarbons are separated by the pipe cooler 11. The final cleaning of the evacuated vapor-air mixture is carried out in the filter 12. Thus, the cleaned air enters the air pump 13.

The effectiveness of a low-temperature bitumen vacuum boiler is to accelerate the process of bitumen preparation and, as a result, reduce the thermal destruction process in bitumen. This is also facilitated by lowering the temperature at which bitumen dehydrates.

Claims (1)

A low-temperature bitumen vacuum boiler, comprising a housing with process pipes and heating elements, characterized in that it further comprises an evaporation chamber located above the boiler and connected to it with flat trays sequentially arranged in it and connected in a Z-shape, with the upper part of the evaporation chamber through the left nozzle and the bitumen circulation pump it is connected to the boiler, and through the right nozzle of the evaporation chamber, a crane, a condenser with a tubular cooling Teleconference and filter - with a vacuum pump.