RU2152570C1 - Bitumen dehydration device - Google Patents

Abstract

FIELD: construction engineering; manufacture of pure components of asphaltic concrete and other compositions. SUBSTANCE: device has reservoir where electrodes are coaxially arranged; these electrodes are enclosed in insulating envelope. EFFECT: increased productivity; extended technological capabilities. 3 dwg

Description

 The invention relates to the field of preparation of building materials.

 Known analogue prototype / 1 / - patent RU 2052743 C1, 01/20/96, F 26 B 3/347.

 The disadvantages / 1 / include the multipurpose purpose of the device for the preparation of building materials.

 The purpose of the invention is to increase productivity and technological capabilities when removing moisture from bitumen or other materials in the sublimation mode.

 This object is achieved in that the device for dehydration of bitumen, consisting of a tank and a heater in the form of electrodes, characterized in that the tank is equipped with a hatch with holes designed to remove evaporated moisture from bitumen, and the heater is made in the form of coaxially arranged electrodes enclosed relative to each other each other in an insulating shell, and the outer ring electrode is equipped with a cross section of a multi-row package of cores, closed inside and outside with ring layers of heat-resistant polymer coatings, as well as the central core made of non-ferrous metal and connected shortly to the steel peripheral cores of the coaxial electrode, from one end, and from the other end, the coaxial electrodes are connected to the power source by technological voltage, while the external electrode is connected to the zero phase of the transformer and the capacitance dehydration of bitumen having individual grounding, simultaneously coaxially arranged core layers vary along the cross section from the axis of the heater upwards periphery to dissipate the thermal energy released relative to the heat-resistant insulation and heat transmission inside the container protrusions formed in a studded surface intended to interact with the bitumen weight and the heater heat-resistant insulating coating.

 Graphic Images: FIG. 1 is a cross section of a container for evaporating moisture from bitumen; FIG. 2 is a side view of a device for dewatering bitumen; FIG. 3 - heater and its power supply circuit with technological voltage.

 Description of a device for dehydration of bitumen, taking into account significant differences from the prototype.

Device 1 for dehydration of bitumen, consisting of a tank 2 and a heater 9, characterized in that:
the tank is equipped with a hatch with openings designed to remove evaporated moisture from bitumen;
the heater 9 is made in the form of coaxially arranged electrodes enclosed relative to each other in an insulating shell;
the outer ring electrode is equipped with a cross section of a multi-row package of cores closed inside and outside with ring layers of a heat-resistant polymer coating, as well as a central core made of non-ferrous metal and connected shortly to the steel peripheral cores of the coaxial electrode, from one end and from the other end, coaxial electrodes connected to a power source with process voltage;
the external electrode is connected to the zero phase of the transformer and the bitumen dewatering capacity, having individual grounding;
coaxially arranged core layers vary along the cross section from the axis of the heater to dissipate the released heat energy relative to heat-resistant insulation and transfer heat energy inside the tank to the protrusions made in the form of a studded surface designed to interact with the mass of bitumen and heat-resistant insulation coating of the heater.

 Description of the device.

 The device 1 contains a cylindrical tank 2 mounted on racks 3, grounded with soil 4. In the upper part of the tank 2 there is a hatch with holes for evaporating moisture and for supplying hot bitumen through the pump and pipelines 6 and 7. Through the opening 8, the evaporated moisture is supplied to the condensate collector or to the heat exchanger for the secondary use of thermal energy.

 The heater 9 is made in the form of coaxially arranged electrodes 10 and 11, isolated from each other by a heat-resistant insulating coating 12 and 13.

 The outer ring electrode 10 consists of a multi-row package of cores having an austenitic base and alloying elements that resist the process voltage from the secondary winding 14 of the transformer 15, in which the primary winding is connected to the contacts 16 and 17 of the process voltage.

 A multi-row package of cores 18, 19 ... is connected shortly from the ends to the end of the core 11, which is the central electrode.

 Grounding 4 is connected to a coaxial electrode 10, consisting of cores 18, 19 ..., and electrode 11 is connected on the other side of the secondary winding of transformer 15. Capacity 1 has an individual grounding 4 due to racks 3 buried in the ground.

 The cores of the external coaxial electrode vary in diameter in the direction of increase to the periphery, which allows more rational distribution of heat fluxes of thermal energy in the gap between the cores 18, 19 ....

 The inner surface of the tank 1 is studded with corrugations 20, which increases the heat transfer area and accelerates the heating and sublimation of bitumen.

 The industrial usefulness of the new technical solution lies in a more rational arrangement and safer design of the heater, which in laboratory studies releases moisture from the mass of bitumen equivalent to 20T, 18 ... 20 minutes after heating in winter conditions.

 The heater is not described in more detail due to the presence of KNOW-HOW.

 The economic usefulness of the new technical solution consists in the use of simple and affordable technological methods that ensure the evaporation of moisture, the selection of hot bitumen, and the reuse of thermal energy increases the environmental protection of the environment and frees the factory territory from unpleasant odors.

Claims (1)

 A device for dewatering bitumen, consisting of a tank and a heater in the form of electrodes, characterized in that the tank is equipped with a hatch with holes designed to remove evaporated moisture from bitumen, and the heater is made in the form of coaxially arranged electrodes enclosed relative to each other in an insulating shell, moreover the outer ring electrode is equipped with a cross section of a multi-row package of cores closed inside and outside with ring layers of a heat-resistant polymer coating, as well as the central cord IR made of non-ferrous metal and connected shortly to the steel peripheral cores of the coaxial electrode, from one end and from the other end, the coaxial electrodes are connected to the power supply by technological voltage, while the external electrode is connected to the zero phase of the transformer and the bitumen dewatering tank, which has individual grounding , simultaneously coaxially disposed layers of the cores, vary along the cross section from the axis of the heater in the direction of increase to the periphery to disperse the emitted t pilaf energy relative to the heat-resistant insulation and heat transmission inside the container protrusions formed in a studded surface intended to interact with the bitumen weight and the heater heat-resistant insulating coating.

Images