Global Warming

How Does An Electrostatic Precipitator Reduce Air Pollution?

With e-wastes filling landfills all over the world and the exponential increase in fuel-burning vehicles on the highways, it’s high time we take measures to reduce air pollution. More than just smoke, the quality of air is linked to everything – from global warming to childhood asthma.

Electrostatic Precipitator

Wondering about the ways to make a difference in society? Using electrostatic precipitators (ESPs) can be a great solution!

Tackling pollutants in the air is vital since poor quality of air has harmful effects on human health, especially the cardiovascular and respiratory problems. Turning a blind eye to the rising problem of air pollution can not only risk human health but also impact the health of the planet for the generations to come. And, using an electrostatic precipitator can be a great step to get started for improving the air quality in your home, community as well as the society at large.

Here’s everything you need to know about ESPs!

How Does An Electrostatic Precipitator Work?

Electrostatic smoke precipitators are one of the most efficient ways of eliminating particles and do not cause any significant pressure drop across the unit. They work by removing smoke and particles from a gas stream by means of an electrostatic charge. The dust particles go past the wires which boast of a high direct current voltage applied that ionises the adjacent gases. It is this corona release which causes the particles to pick up a small electrostatic charge.

How Effective Are Electrostatic Smoke Precipitators?

With air pollution controls becoming increasingly stringent, even smoke precipitator technology is evolving to keep pace. The state-of-the-art precipitators can remove the majority of the particulates in flue gas by moving at a typical speed.

Factors On Which The Dust Collection Efficiency Of An ESP Depends

  • Particle Size Distribution

This is a key aspect which affects the dust efficiency of an electrostatic precipitator. The size of the aerosol you wish to collect in the ESP even determines the dust collection efficiency of the device. Make sure you consider the size of both the device and the aerosol.

  • Concentration Of Aerosol

The dust collection efficiency of a device largely depends on the aerosol concentration. Since the aerosol consists of both mist and dust, the concentration of gas in it differs a lot. So, if you want the value of aerosol concentration to remain the same at the device’s outlet, ensure the aerosol concentration is higher at the inlet.

Now that you are aware of everything, what are you still here for? It’s time to tackle air pollution with electrostatic precipitators.

Know More About The Dust Collection Efficiency Of Electrostatic Precipitators

For someone not aware of the term yet, electrostatic precipitator is basically the process through which electrostatic forces are used to collect dust. These electrostatic forces generally comprise of collecting plates and discharge wires. An electrical field is created when a high voltage is applied to the discharge wires. Ions are also supplied as the gas around the wire also get ionised.  Though being quite complicated, the principal of Electrostatic Precipitation is applied on an industrial scale.

ESP at a industry

Since the device has so much to offer, make sure that the supplier you are approaching for durable and efficient electrostatic precipitators is indeed reliable. This will give you the assurance that the Electrostatic Precipitator Spares offered by them are of the highest quality and the device can last for years to come even with minimal maintenance. Their professionals are also aware of all the factors on which the dust collection efficiency of the device depends.

3 Factors On Which The Dust Collection Efficiency Of An Electrostatic Precipitator Depends

  • Electrical Resistivity Of Dust

The normal the resistivity area will be, the higher will be the dust collection efficiency of the device and the process will be more stable. On the other hand, particles have a higher chance of losing their charge on their arrival at the collecting plate if they are in some low-resistivity area. This means that the particles again enter the dust collection area and the efficiency of the device reduces. Even in a high-resistivity area, its dust collection efficiency reduces with an increase in the electrical resistivity of the dust. This is why you need to consider the electrical resistivity of the dust when determining the right model of the electrostatic precipitator or its spares.

  • Particle Size Distribution

The particle size of the aerosol you are willing to collect in the electrostatic precipitator also determines its dust collection efficiency. When performed on aerosol with particles of different sizes, the collection efficiency of the large particles will be higher while that of the small particles will be lower. You need to consider the size of both the aerosol and the device if you want to get specific dust collection efficiency. Using a bigger device means the treating time will increase and so the process gas will take more time to pass through it.

  • Concentration Of Aerosol

Since the aerosol comprises of both dust and mist, the concentration of gas in it also differs. The dust collection efficiency of the device is largely dependent on the aerosol concentration. If you want the value of aerosol concentration to remain the same at the outlet of the device, the aerosol concentration should be higher at the inlet. Sometimes, its dust collection efficiency can reduce inspite of the aerosol concentration being higher at the inlet if the sizes of the particles are small.

Since you are now aware of the prime factors determining the efficiency of an electrostatic precipitator, it’s time you start looking for a reliable company offering the device and its spare parts at affordable prices.

A few important facts about electrostatic precipitators

You may have heard about different types of useful technologies to ensure air purification. UV light, fibreglass or HEPA filters, activated carbon and a lot more. Each of them uses a specific strategy to remove particles and thus purify the air. Electrostatic precipitators are technologies for air purification mostly used to clean industrial fumes though now they are used for residential air as well.

Let’s have a quick look at some important points to know about an electrostatic precipitator.

Basic working principles

Basically, this helps to purify the air by means of electrostatic force for grabbing and holding dust as well as other particles. The tool consists of wires and collection plates along with high voltage through an electrostatic field between wires and collecting plates to charge the air electrically while ionizing them during the process. While airborne particles like pollen or dust flow between the plates, those particles become charged and that causes them to get attached to the plates. And then the air flows through leaving those particles behind. The entire process results in clean and purified air. Particles collected in the plate are shaken loose and then scraped off or washed away. This process ensures disposal of airborne particles in an eco-friendly manner.

Electrostatic precipitation is a highly organised method for filtration of fine particles from sinuous gas. Such precipitators are able to manage a large quantity of air without causing significant slowing down in the flow rate. However, while choosing an electrostatic precipitator (ESP), you must keep in mind the purpose of buying it. For example, the ESP used for kitchen must be different from the one used in industrial units. Extraction of air from the kitchen is a complex process as this air is a complicated compound mixture of grease, smoke, water vapour and temperature. So for your kitchen, you should choose one that is explicitly designed for kitchen environment instead of a non-specific industrial ESP.

Types of an electrostatic precipitator

Mainly two types of electrostatic precipitators are available in the market. They provide different levels of air purification. Let’s have a look at how they work.

  • Plate precipitators – This is the most common type of ESP. This contains a row of vertical wires that provide the particles with a charge while the collecting plates collect and hold the particles. This basic, two-stage design (first charging and then collection) ensures reduced ozone production that can be otherwise harmful if inhaled. This type of ESP is specifically beneficial for those working in close proximity to the device.
  • Wet precipitators – This is another widely used type of precipitator. This is also called a WESP or a Wet Electrostatic Precipitator. This device is mostly used for removal of liquid droplets like sulfuric mist from the industrial steam. WESP uses a typical tubular design to let the collected particles and moisture form a thick combination. This model comes really handy for content holding a huge quantity of moisture or containing combustible particles.


  • Ensures up to 99 percent molecule removal
  • Minimum pressure drop
  • Collected particles may be improved for further processing

Discussed above are some important factors that you must know before using an electrostatic precipitator.

Know More About Electrostatic Precipitators And Its Control Techniques

The easiest way to remove particles from a gas stream is by using an electrostatic precipitator. Electrical energy is used to charge those particles negatively or positively before they get attracted by the collector plates which are generally of the opposite charge. The collected particles become dry in the collector plates and can be easily removed or washed with water. Not everyone using the procedure is aware of the fact that the collection efficiency of ESPs is more than 99 percent and this is why they are widely used in various industries.

Its Various Components

The four common components you will generally find in an electrical precipitator are discharge electrodes, rappers, collection surfaces and gas distribution plates. These plates comprise of numerous plates which are perforated to maintain and properly distribute the air entering the gas stream.

The discharge electrodes in a majority of the ESPs are divided into 3 or 4 fields. The larger electrodes are divided into around 14 fields which are generally found in series. A solo transformer-rectified set power supply is sufficient to energise those electrodes and create ions. The ions dashes with the particles in the incoming gas stream and applies an electrical charge. The charged particulate matter then collects on the plates or pipes which can be later removed using the rapping system.

Types Of Electrostatic Precipitators

There are generally two types of ESPs, namely dry ESPs and wet ESPs. What differentiates these two is the method through which the plates where the particles collect are cleaned. Vibrations or mechanical impulses are used to loosen the collected particulate matter and clean the dry ESPs from the collection plate. To remove wet ESPs, you have to rinse the collector plate thoroughly using water. Using this wet method becomes necessary when the particles accumulated in the gas streams are sticky and have low resistivity.

ESP Performance And Particle Resistance

For someone not aware of the term, ‘particle resistivity’ is basically the property of the particles that can influence the process through which they deposit or is removed from the collection plates. This is why resistivity of the particles can affect the performance of Electrostatic Precipitators drastically. Moderate resistivity is regarded to be the ideal situation when the particles can automatically accomplish some of their charges after reaching the collection plate. This prevents the inhibition of other deposited particles and makes them capable of retaining their charge while holding them lightly on the plate.

It takes longer for the particles to conduct away their charge if the resistivity of the particles is higher. As a result, a negative charge builds up on the plate which inhibits the other deposits. If the resistivity is too low, the particles will start losing their own charge once they reach the collection plate and start attracting charges from the plate. This will make the negatively charged particles deter back into the gas stream.

Since your knowledge about electrostatic precipitators has enhanced, it’s time you start looking for a reliable company who can take care of all your ESPs needs.

Electrostatic Precipitator, Its applications, Advantages, at Industrial Zones in India

According to world Health Organisation 2015 report, around 7 million premature deaths take place due to air pollution.

And 10 thousand people are dying at the age of around 40 because of toxic fumes. Thousands of children become asthma patients at the age of six only.

And according to a forecast according to the Constance growth of dying, by the year of 2050, there must be a scarcity of pure drinking water due to the lack of sanitation.

The most air polluted “hotspots” have been found in the biggest metropolitan cities, rather can say, the industrial areas of the most metropolitan cities in this country.

According to another statistical report air has been polluted due to cheap and poor quality supply of coal in most industrial areas. And this leads to India being  one of the leading pollutant regions in the whole universe.

The Big Smoking Zone of the Country:


Industrial areas are the backbone of every country. So, before thinking  to stop industrialization, that is the most common thinking of masses, think pragmatic to reduce pollution without getting hazard the industry and their prosperity.

Lack of exposure to sunlight children get affected in rickety or various bone deficiency diseases as the smog in air of these areas block sunlight. A permanent smoke haze has already enveloped some areas of Delhi, Patna, Gwalior and Raipur.

According to the “smoke control laws in India” apart from banning tobacco smoking in public zone or creating an extra smoking zone in railway stations or airports, it is mandatory to install Electrostatic Precipitator in every industrial zone of this country.

A little talk about Electrostatic Precipitator.


It has been used from 1900 and was first initiated by Dr. Frederick G. Cottrell in 1907. Now it is widely acclaimed by every industrial and commercial areas in India as the most proficient machinery that purifies air.

Application of Electrostatic Precipitator:

Apart from the various advantages, this apparatus works in the most proficient way to reduce toxic levels of the environment. It has potential to take away 99.9% of dust particles that is very beneficial for the welfare of eliminating health hazards.


Advantages of Electrostatic Precipitators

  • Manages massive gas level and dust, especially smog with less pressure
  • Can easily systematize mordant and wet equipment
  • Low expenses
  • It can last for several years
  • Hassle-free upholding
  • Collection efficacies even for tiny elements

Key Components of Electrostatic Precipitator Include

  • Release electrodes
  • Precipitator control
  • Wash out air systems
  • High voltage power supply
  • Spray washing systems

Layout of Electrostatic Precipitator

The preliminary cost of this equipment is quite expensive, when you purchase it for the first time. But, the best part is, its maintenance cost is very cheap and reasonable. The classification is recognized for its permanence and will surely last for several years. One of the best things about ESP is that you don’t need to purchase substitute filters. On the other hand, the ion charged plates has to be cleaned from time to time automatically for optimal performance. Electrostatic precipitator provides almost no wind resistance and doesn’t require any form of pushing control unlike other models.


In conclusion, what need to talk about, after giving the detail aspects of this must need equipment is, it is the most fundamental job to install it in all industrial zone. And we need to know its reimbursement in a vast level.


Contributions of Industrialisation in Causing Global Warming and Its Effects

Undoubtedly, global warming is the growing concern of the environmentalists. Actually, it is the increase of earth’s average surface temperature and is caused by the effect of the greenhouse gases which absorb heat.

A report of EPA( Environmental Protection Agency) showed that the temperature of the earth has increased by 0.8% in the past few years. It has been caused by the increasing rate of deforestation, industrialisation and pollution.

Our world witnessed the industrial revolution in the year 1700 and then it spread to the rest of the world. The introduction of the machinery and factories has given birth to mass production that caused various kinds of environmental hazards.

Industrialisation has caused the depletion of the environment, leaving it permanently damaged. An example of the depletion is the loss of forests. It not only uproots the wildlife, but also it affects the quality of the air. Due to lack of trees, the oxygen is generated in less amount. Moreover, the places of the forests are captured by the industries that emit greenhouse gases like carbon dioxide and methane.

The Effects of Global Warming


  • Apart from increasing the temperature, there are several other negative impacts of global warming. Among them, the rise of the sea level is a threatening impact. As the temperature increases, the glaciers are melting causing a massive sea level rise. It is one of the reasons of hurricanes, Tsunamis, tornados etc.
  • The extreme weather change caused by global warming has given birth to forest fires, heat waves and several other tropical storms. It has also made the coral reefs suffer from the worst bleaching. Even, the reefs have witnessed the highest dying record in the last few years.
  • Global warming increases smog pollution and causes pollen allergies and asthma. Studies have showed that the increasing level of carbon dioxide gives birth to weeds like ragweed that causes allergies and asthma. In recent years, the number of people suffering from asthma has increased and global warming can be made responsible for that.
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  • Warmer temperatures help to increase the amount of rainfall in some areas. Even, it can increase the frequency of rainstorms that can put many people at risk of floods. The warm environment can also increase the possibility of drought and can affect the agriculture.
  • The increasing temperatures are also responsible for damaging the balance of the ecosystems. There are a good number of species that are becoming extinct as they are unable to adapt the conditions. A recent report showed that more than 1 million species would be eliminated by before 2050 if the current environmental conditions continue.

So, it can be concluded that global warming leaves a strong impact on our environment. As the temperature continues to increase, it is difficult to foretell what more negative impacts global warming will leave. It can be said that the situation is going to be worse, if necessary steps are not taken now. It is up to everyone to recognise the problems and take preventive measures.


Industrial emissions contribute a lot to this major problem of global warming, so installing ESP or Electrostatic Precipitator in  Chemical, cement industries and power plants can reduce the amount of air pollution substantially and can be of much help in the long run. Save Our Earth! Let it breathe!