RU78247U1 - SMOKE PIPE FOR AN AGGRESSIVE GAS MEDIA - Google Patents

Abstract

A chimney for an aggressive gas environment belongs to the field of construction and can be used in metallurgy and the chemical industry at facilities with an aggressive external environment, namely, in the design of chimneys for aggressive gas environments. To increase reliability, service life and expand the technological capabilities of a chimney for an aggressive gas environment by increasing the temperature range of aggressive gas environments, the chimney for an aggressive gas environment contains at least one fiberglass exhaust pipe, according to a utility model, equipped with an external self-supporting metal barrel . In addition, thermal insulation is made on the outer surface of the gas exhaust pipe.

Description

The utility model relates to the field of construction and can be used in metallurgy, chemical industry at facilities with an aggressive external environment, namely in the design of chimneys for aggressive gas environments.

A chimney selected by the applicant as a prototype for an aggressive gas environment consists of an internal part (gas-exhaust fiberglass barrel) and an external supporting metal structure in the form of a metal truss (see. "BUILDING MATERIALS, EQUIPMENT, TECHNOLOGIES OF THE XXI CENTURY" No. 1-99, p .26-27.).

Fiberglass has high chemical resistance and heat resistance up to 250 ° C. However, a fiberglass pipe with this design of a chimney with a supporting metal structure in the form of a metal truss is exposed to wind, radiation and solar exposure, and condensation will form from dust collection. The wall of the fiberglass barrel does not have thermal insulation, and there is a priori condensation on the outer surface, which freezes and tears the fiberglass pipe at the bottom of the chimney (at the condensate collection point).

Condensation, temperature stress, radiation and sun exposure, combined with force, lead to cracks in the fiberglass barrel.

In addition, fiberglass does not work at temperatures below 25 ° C. Therefore, in the northern regions, negative temperatures also lead to the appearance of cracks in the fiberglass trunk.

The technical task of this utility model is to increase the reliability, service life and expansion of the technological capabilities of the chimney for an aggressive gas environment by increasing the temperature range of aggressive gas environments.

The problem is solved by performing the well-known chimney for an aggressive gas environment containing at least one gas exhaust fiberglass barrel, which, according to a utility model, is equipped with an external self-supporting metal barrel.

Thermal insulation is made on the outer surface of the gas exhaust pipe.

The proposed design of the chimney for an aggressive gas environment with an external self-supporting metal barrel protects the internal gas-exhaust fiberglass barrel from the external negative environment (wind, radiation and solar exposure). Smooth surfaces of a self-supporting metal barrel exclude the appearance of deposits, and therefore condensate. In addition, the gas-exhaust fiberglass chimney barrel is hidden in the annulus (200-300 mm). Under these conditions, it becomes possible to perform thermal insulation on the internal gas-exhaust fiberglass barrel, which makes it possible to use the proposed design of the chimney for low-temperature and moist aggressive gas environments where it is impossible to use stainless steel. The proposed design of the chimney for aggressive gas environments is also applicable to flue gases with a higher temperature (up to 200 ° C), at which the height of the emission plume increases, as a result of which environmental problems are solved.

The proposed chimney for aggressive gas environments provides a normative maintenance-free period of its operation.

The essence of the utility model is illustrated by the drawing, which shows a fragment of a longitudinal section of the proposed chimney for an aggressive gas environment.

The proposed chimney for aggressive gas environments contains an external self-supporting metal barrel 1 and at least one gas exhaust fiberglass barrel 2. The design of the gas exhaust fiberglass barrel will be determined by the requirements of the project conditions. The thermal insulation 3 on the outer surface of the gas exhaust fiberglass trunk can be, for example, filled in the form of an extended casing or made of vermivil material.

Claims (2)

1. A chimney for aggressive gas environments, containing at least one exhaust pipe fiberglass barrel, characterized in that it is equipped with an external self-supporting metal barrel. 2. A chimney for an aggressive gas environment according to claim 1, characterized in that thermal insulation is made on the outer surface of the gas-exhaust fiberglass barrel.