KR101456611B1 - DEVICE OF De-PM, De-SOx, De-NOx OF EXHAUST GAS EMITTED FROM SHIP - Google Patents

Abstract

The present invention relates to an apparatus for removing contaminants contained in exhaust gas, and more particularly, to a scrubber for spraying cleaning water to an exhaust gas so that SOx, NOx, PM, An ozone generator for generating ozone to be injected into the washing water to remove NOx adsorbed to the washing water, a PH for injecting a neutralizing agent into the washing water to neutralize the washing water, A mixer, and a device for removing PM, NOx, and SOx adsorbed on the cleaning agent are unified to remove PM, SOx, and NOx in the exhaust gas of a ship having an effect of continuously removing harmful substances contained in the exhaust gas Lt; / RTI >

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a device for removing PM, SOx, NOx from exhaust gas of a ship,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for removing harmful substances contained in exhaust gas, and more particularly, to an apparatus for removing harmful substances contained in ship exhaust gas, which removes PM, SOx and NOx, PM, SOx, and NOx.

Due to the rapid industrialization of modern society, the use of fossil fuels has increased, and the air pollution caused by harmful substances in the combustion process is serious.

The main hazardous substances of air pollution are nitrogen oxides (NOx), sulfur oxides (SOx) and fine dust (PM).

As the awareness of environmental preservation increases, exhaust emission regulations are strictly enforced. In particular, in the ship sector, the International Maritime Organization (IMO), an affiliate of the United Nations, implements regulations on the emission of NOx and SOx contained in exhaust gas emitted from ships.

SCR (Selective Catalytic Reduction) is a typical technique for removing NOx from the exhaust gas of a ship. SCR is a technology that converts NOx to nitrogen and water by injecting ammonia or urea into the catalyst.

Techniques for removing SOx from ships are divided into wet and dry processes. The wet process removes sulfur oxides from seawater or alkaline solutions, and the dry process removes sulfur oxides by using calcium hydroxide or sodium-based sorbents.

These technologies for removing NOx and SOx are each individual, and it has been difficult to continuously apply the removal technology to ships.

Korean Registered Patent No. 10-1201426 (November 14, 2012)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention, which has been made in view of the above, to continuously remove PM, NOx and SOx, which are harmful substances, and to continuously treat PM, SOx and NOx, which are easy to treat harmful substances in ship exhaust gas, And the like.

According to an embodiment of the present invention, there is provided an apparatus for removing particulate matter (PM), sulfur oxides (NOx), and NOx contained in exhaust gas from a ship, the exhaust gas containing SOx, NOx, PM, An ozone generator for generating ozone to be injected into the washing water in order to remove NOx adsorbed to the washing water, There is provided an apparatus for removing PM, SOx, and NOx contained in a ship exhaust gas including a PH mixer for injecting a neutralizing agent into cleansing water for neutralization.

The scrubber may be provided with a truncated cone buffer tank which becomes narrower toward the bottom for storing the washing water.

The purifier may be provided with a water separation filter for separating PM and unbleached oil from the washing water.

The washing water is moved along the pipe, and the pipe can be provided with a sensor capable of measuring pressure and dissolved ozone before and after the ozone is introduced into the washing water from the ozone generator.

Ozone can be injected from the ozone generator into the cleansing water branch tube through the ejector.

The amount of the neutralizing agent to neutralize the washing water can be determined by the PH sensor provided in the channel.

PM and unleaded oil separated from the washing water can be stored in a tank connected to the purifier.

The washing water may be clean water or seawater.

The NOx-free washing water can be re-atomized and re-atomized into the scrubber.

A cooler for cooling the washing water may be provided in the recirculation pipe provided so that the washing water is recirculated to the scrubber.

An ozone inlet line may be provided between the ozone generator and the scrubber in order to inject ozone generated in the ozone generator into the washing water flowing into the scrubber.

According to the apparatus for removing PM, SOx and NOx contained in ship exhaust gas according to the present invention, a device for removing PM, NOx, and SOx adsorbed on a cleaning agent is unified to continuously remove harmful substances contained in exhaust gas .

Since clear water and seawater are used as washing water, corrosion by seawater is prevented.

Since seawater is used, the use of an absorbent to remove SOx is eliminated, eliminating the cost of purchasing an expensive absorbent.

The ozone added to the washing water reacts with NOx in the exhaust gas and is separated into N2 and O2 to remove NOx.

When the exhaust gas temperature is lowered by the washing water, since the thermal decomposition of ozone is reduced, the residual ozone reacts with more NOx, thereby improving the NOx removal rate.

A buffer tank is provided at the lower end of the scrubber to prevent stable supply and pulsation of the washing water, and a ballast water containing ozone as washing water can be used.

1 is a schematic diagram of an apparatus for removing PM, SOx, and NOx contained in ship exhaust gas according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which illustrate exemplary embodiments of the present invention. The present invention is not limited to these embodiments.

1 is a schematic diagram of an apparatus for removing PM, SOx, and NOx contained in ship exhaust gas according to an embodiment of the present invention.

As shown in the figure, the apparatus for removing PM, SOx and NOx contained in ship exhaust gas of the present invention is a device for removing SOx, NOx, PM, and unleavened oil contained in an exhaust gas G, A purifier 200 for separating PM and unleavened oil from the washing water W and a scrubber 100 for spraying the NOx adsorbed on the washing water W An ozone generator 300 for generating ozone to be injected into the washing water W to remove the washing water W and a PH mixer 400 for injecting a neutralizing agent into the washing water W to neutralize the washing water W.

The cleansing water W is moved through a channel 500 connecting the scrubber 100, the purifier 200, the ozone generator 300, and the PH mixer 400.

A plurality of pumps for increasing the flow pressure of the washing water W are installed in the pipeline 500 to smooth the flow of the washing water W flowing in the pipeline 500.

In addition, a plurality of valves are mounted on the channel 500 to block the flow of the washing water W during maintenance for maintenance.

In an embodiment of the present invention, an inlet port through which the exhaust gas G flows is formed on the side surface. An inlet pipe through which the washing water W is supplied to the scrubber 100 is mounted on the upper side of the inlet and a nozzle is provided inside the scrubber 100 horizontally with the inlet pipe.

The washing water (W) supplied through the inflow pipe can be used singly or as a mixture of seawater, fresh water or seawater.

By using fresh water in addition to seawater, corrosion of the scrubber 100, the purifier 200, and the pipeline 500 due to seawater is prevented.

The cleansing water W can be used to prevent corrosion of the scrubber 100, the purifier 200, and the channel 500 by seawater, fresh water, or seawater introduced from the seawater of the ship, It is effective. Freshwater, brackish water or seawater are classified according to their salt concentration.

The washing water W is sprayed toward the exhaust gas G flowing into the scrubber 100 from the nozzle and brought into contact with the contaminants SOx, NOx, PM and unburnt oil contained in the exhaust gas G, Adsorbed on the water W and falls freely.

The scrubber 100 has a truncated cone shape with a horizontal cross section becoming narrower toward the bottom. A buffer tank 110 is provided under the buffer tank 110. The cleansing water W that has fallen freely passes through the buffer tank 110 and is discharged from the scrubber 100 through the pipeline 500 to the purifier 200 The pressure of the flowing washing water W is kept constant.

When the scrubber 100 and the purifier 200 are not close to each other or when the purifier 200 is positioned higher than the scrubber 100, a pump is installed in the pipeline 500 to pressurize the purifying water W, 200).

The purifier 200 is provided with a water separation filter 210 for separating PM and unleaded oil from the washing water W.

PM and unbleached oil separated from the cleansing water W by the filter 210 are stored in a discharge tank 220 connected to the purifier 200.

The discharge tank 220 is provided with a sensor capable of measuring the amount of PM and unleaded oil. When the measured amount is equal to or greater than a predetermined value, PM and unleaded oil are recovered from the discharge tank 220.

Part of the cleansing water W from which PM and unleavened oil have been removed is bypassed and ozone generated in the ozone generator 300 is injected through the ejector. That is, at the downstream end of the purifier, the washing water has an ozone branch injected with ozone and a combined pipe which is rejoined after branched into an ozone differentiator without injection of ozone, and the pressure increase due to ozone injected before and after the ozone generator is measured A pressure sensor is provided to control the amount of ozone generated and the amount of ozone generated into the ozone branch.

The specific configuration of the ozone generator 300 is disclosed in Korean Patent Registration No. 10-1138003 (Apr. 20, 2012), which is an art relating to an apparatus for purifying ozone by introducing ozone into the wastewater, so that its explanation is omitted.

NOx contained in the cleansing water W reacts as shown in the formula (1), and NOx is replaced with nitrogen and oxygen, thereby removing NOx contained in the cleansing water.

[Chemical Formula 1]

2NO + 2O ₃ -> N ₂ + 4O ₂

2NO ₂ + 2O ₃ -> N ₂ + 5O ₂

In addition, a sensor 520 for measuring the pH of the cleansing water W from which NOx has been removed is provided in the pipeline 500.

Since SOx is contained in the cleansing water (W) through a reaction similar to the reaction in Chemical Formula (2), PH becomes acidic.

(2)

SO ₂ + H ₂ O -> H ₂ SO ₃

_{2SO 3 + 2H 2 0 ->} 2H 2 S0 4

The neutralizer is injected into the washing water W in the PH mixer 400 before the washing water W is discharged to calculate the amount of the washing water W, Of PH is maintained at 6.5 or more.

An ozone introduction conduit 700 for introducing ozone generated in the ozone generator 300 into the washing water W is provided between the ozone generator 300 and the scrubber 100.

And to increase the NOx removal rate contained in the exhaust gas G flowing into the scrubber 100 by injecting ozone through the ozone introduction pipe 700 when clean water or seawater is sprayed.

One embodiment of the present invention is a washing water recirculation method for recycling the washing water W to the scrubber 100 so as to be re-sprayed before the neutralizer is injected into the washing water W from the PH mixer 400 after the NOx removal, .

By recirculating the cleansing water W, the removal efficiency of NOx contained in the exhaust gas can be increased by the ozone contained in the cleansing water W.

The recirculation duct 600 is provided with a cooler 610 for lowering the temperature of the recirculated washing water W. The cooler 610 prevents vaporization of the washing water W due to the temperature difference and increases the removal efficiency of NOx in the washing water W according to the ozone and the chemical formula 1. [ This is because the exhaust gas G having a temperature of 200 DEG C or more introduced into the scrubber 100 is cooled to 50 DEG C or lower by the cleansing water W cooled and recirculated by the cooler. The ozone contained in the cleansing water W When the exhaust gas (G) comes into contact, the thermal decomposition of ozone is reduced and ultimately the NOx removal efficiency by ozone is improved.

Since the amount of ozone injected into the washing water can be adjusted according to the amount of the recirculating washing water and the ozone content of the recirculating washing water, the amount of ozone introduced through the ozone feeding pipe 700 can be reduced when the washing water is recirculated.

G: Exhaust gas 100: Scrubber 110: Cleaning water
120: buffer tank 200: purifier 210: filter
220: discharge tank 300: ozone generator 400: PH mixer
500: conduit 510: sensor 600: recirculation duct
610: Cooler 700: Ozone input line
S1: mixing step S2: separating PM and unburnt oil
S3: NOx removal step S4: PH neutralization step
SC: Seawest box

Claims (10)

A scrubber for spraying the cleaning water to the exhaust gas so that SOx, NOx, PM, and unleavened oil contained in the exhaust gas are adsorbed to the cleaning water;
A purifier for separating the PM and the unleaded oil from the washing water;
An ozone generator for generating ozone to be injected into the washing water to remove the NOx adsorbed to the washing water;
And a PH mixer for injecting a neutralizing agent into the washing water to neutralize the washing water,
The cleaning water at the downstream end of the purifier has a composite pipe which is divided into ozone branch pipes into which ozone is injected and ozone pipe pipes into which ozone is not injected, Wherein the PM, SOx, and NOx are contained in the exhaust gas of the ship. The apparatus for removing PM, SOx and NOx contained in a ship exhaust gas according to claim 1, wherein the washing water is clean water or seawater, or a combination of fresh water and seawater. The method according to claim 1,
Wherein the scrubber is provided with a truncated cone-shaped buffer tank having a narrow bottom. The apparatus for removing PM, SOx and NOx contained in a ship exhaust gas. The method according to claim 1,
Wherein the purifier is provided with a filter for separating the PM and the unleaded oil from the washing water, wherein the PM, SOx and NOx are contained in the exhaust gas of the ship. delete The method according to claim 1,
Wherein the synthetic pipe is provided with a pH sensor for determining an injection amount of the neutralizing agent according to an acidity of the washing water. The method according to claim 1,
Wherein the PM and the unleaved oil separated from the cleansing water are stored in a discharge tank located at a rear end of the purifier. The method according to claim 1,
And recirculating washing water, which is a part of the washing water at the front end of the PH mixer, is mixed with the scrubber inlet pipe through the recirculation line and sprayed back to the scrubber. 9. The method of claim 8,
Wherein the recirculation pipe is provided with a cooler for cooling the recirculated rinse water. The apparatus for removing PM, SOx and NOx contained in exhaust gas of a ship. The method according to any one of claims 1 to 4 and 6 to 9,
Wherein the ozone generated in the ozone generator is connected to the scrubber inlet pipe through an ozone inlet pipe.

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