CN110860545A - Novel unpowered micro-negative pressure deodorization system - Google Patents

Abstract

The invention relates to a novel unpowered micro negative pressure deodorization system which comprises a deodorization main pipe and a plurality of deodorization branches connected with the deodorization main pipe, wherein the deodorization branches are provided with deodorization air suction ports used for sucking air carrying odor; the deodorization main pipe is communicated with the air feeder inlet through a fan inlet side wall connecting pipeline and is used for sucking the odor-carrying air into the air feeder inlet through the deodorization air suction ports of the deodorization branch circuits by utilizing negative pressure generated in the air feeder inlet side wall connecting pipeline. The invention does not need to independently set a fan driving system, and only utilizes the negative pressure generated by field operation equipment to work, thereby not only effectively inhibiting the overflowing of irritant gas, but also achieving the purpose of saving energy consumption.

Description

Novel unpowered micro-negative pressure deodorization system

Technical Field

The invention belongs to the technical field of coal-fired coupled biomass power generation, and particularly relates to a novel unpowered micro negative pressure deodorization system.

Background

The biomass energy power does not need matching adjustment such as peak regulation, frequency regulation and the like, the power quality is not different from that of coal power, the problem of network consumption caused by technical factors does not exist, and the electricity consumption social cost is far lower than that of power generation by other renewable energy sources. Biomass resources and fire coal are used for coupling power generation, a certain proportion of coal can be replaced, and the consumption proportion of clean energy is effectively improved.

In practical application, because the cogeneration power plant is in an urban area, the sludge drying process and the furnace entering conveying process need to be controlled in smell, and the air quality of nearby residential areas is ensured. Therefore, a technical solution for effectively controlling the odor diffusion and protecting the environment is needed.

Disclosure of Invention

The invention aims to provide a novel unpowered micro-negative pressure deodorization system, which utilizes negative pressure formed by sucking a large amount of air into an inlet of a blower of a thermal power plant as power, is connected to a place where odor is generated in a sludge conveying link through a pipeline, and sucks air carrying odor into a hearth for combustion through the blower, so that the purposes of not influencing combustion, effectively controlling odor diffusion and protecting the environment are achieved.

The invention provides a novel unpowered micro negative pressure deodorization system which comprises a deodorization main pipe and a plurality of deodorization branches connected with the deodorization main pipe, wherein the deodorization branches are provided with deodorization air suction ports used for sucking air carrying odor;

the deodorization main pipe is communicated with the air feeder inlet through a fan inlet side wall connecting pipeline and is used for sucking the odor-carrying air into the air feeder inlet through the deodorization air suction ports of the deodorization branch circuits by utilizing negative pressure generated in the air feeder inlet side wall connecting pipeline.

Further, the deodorization main pipe is provided with a regulating valve for regulating the negative pressure of the system.

Furthermore, each deodorization branch is provided with a negative pressure regulating valve.

Borrow by above-mentioned scheme, through novel unpowered little negative pressure deodorization system, need not to establish fan drive system alone, only utilize the negative pressure that the on-the-spot operation equipment produced to come work, can not only effectively restrain irritant gas and spill over, can also reach the purpose of practicing thrift the energy consumption.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

FIG. 1 is a schematic structural diagram of the novel unpowered micro-negative pressure deodorizing system of the present invention.

Reference numbers in the figures:

1-inlet of blower; 2-connecting a pipeline on the side wall of the inlet of the fan; 3-adjusting the valve; 4-deodorization air suction inlet; 5-mother pipe.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1, the embodiment provides a novel unpowered micro negative pressure deodorization system, which includes a deodorization main pipe 5 and a plurality of deodorization branches connected to the deodorization main pipe 5, wherein the deodorization branches are provided with deodorization suction ports 4 for sucking air carrying odor;

the deodorization main pipe 5 is communicated with the air feeder inlet 1 through the fan inlet side wall connecting pipeline 2 and is used for sucking the air carrying odor into the air feeder inlet 1 through the deodorization air suction ports 4 of the deodorization branches by utilizing the negative pressure generated in the air feeder inlet side wall connecting pipeline 2. When the boiler normally operates with load, air at the inlet 1 of the air feeder is continuously sucked, negative pressure is generated in a connecting pipeline on the side wall of the inlet of the air feeder, the system is sealed, the air at the deodorization air suction inlet 4 of each branch is sucked, and each deodorization branch is gathered to the deodorization main pipe 5 and finally flows through the connecting pipeline 2 on the side wall of the inlet of the air feeder to enter the boiler.

The system takes pressure generated by air suction as power, the connecting pipeline on the side wall of the inlet of the fan is the only outlet of the whole system, when the air blower runs, air in the pipeline connected with the air blower can flow to the inlet side of the air blower, and the inlet of each branch pipeline can suck air carrying odor around, so that the aim of controlling the diffusion of the irritant gas to pollute the environment is achieved.

In the present embodiment, the deodorization header 5 is provided with a regulating valve 3 for regulating the negative pressure of the system, and the overall negative pressure of the system is controlled by the opening and closing amount of the regulating valve 3.

In this embodiment, each deodorization branch is provided with a negative pressure regulating valve.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (3)

1. A novel unpowered micro negative pressure deodorization system is characterized by comprising a deodorization main pipe and a plurality of deodorization branches connected with the deodorization main pipe, wherein the deodorization branches are provided with deodorization air suction ports used for sucking air carrying odor;

the deodorization main pipe is communicated with the air feeder inlet through a fan inlet side wall connecting pipeline and is used for sucking the odor-carrying air into the air feeder inlet through the deodorization air suction ports of the deodorization branch circuits by utilizing negative pressure generated in the air feeder inlet side wall connecting pipeline.

2. The novel unpowered micro negative pressure deodorizing system according to claim 1, wherein said deodorizing main pipe is provided with a regulating valve for regulating the negative pressure of the system.

3. The novel unpowered micro negative pressure deodorizing system according to claim 2 wherein each of said deodorizing branches is provided with a negative pressure regulating valve.

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