Optimize ESP Performance with Flue Gas Conditioning
Pentol Flue Gas Conditioning is a simple and reliable way to optimize ESP efficiency. With a market share of 100% in Europe, we offer the best available technology to comply with particle emission legislation and reduce carry-over of dust into the FGD unit, increasing the gypsum quality and reducing wast water treatment cost.
Pentol Flue Gas Conditioning has more or less the same effect as building an additional ESP field. Without the need for space, of course. And without changing the ductwork of your plant. And at a fraction of the cost.
Pentol Flue Gas Conditioning reduces solid emission…
- by increasing the efficiency of your ESP
- by reducing the fly ash resistivity
- by injecting SO3 into the flue gas stream.
On the following pages, we would like to show how this works.
Modify fly ash resistivity to let the ESP run on its design point
Fly ash has an electrical resistivity that is been made use of by the electrostatic precipitator (ESP). The ESP produces a huge electrical field where the dust is collected on large steel plates. The collection speed depends on the fly ash resistivity. Typically, coal with low sulfur level tends to produce fly ash with high resistivity. The ESP cannot build up an electric field that is strong enough to collect high resistivity particles, leading to higher than usual emissions or a break through of the ESP at high load.
Pentol Flue Gas Conditioning adds a small amount of SO3 to the flue gas. Just enough to reduce the fly ash resistivity, the ESP can now collect the dust properly and is running at its design capacity. Changing coal is getting easier, as the operator can simply increase or decrease the injection of SO3, preventing the need to mix different coals.
Avoid the back corona effect at dust collection
SO3 is amazingly important because it naturally combines with the moisture in the flue gas to create sulfuric acid. Sulfuric acid immediately reacts with the fly ash particles to form a thin conductive film, which eventually lowers the fly ash resistivity.
With the precipitator performing at its design efficiency, sparking and back corona is eliminated, extending the lifetime of the precipitator and allowing the operator to run the precipitator on rated current.
Stay within particle emission limits;
Sell valuable gypsum instead of disposing of it at a cost.
In most countries, exceeding the emission limit forces the reduction of power production of the unit. The loss of production pays the cost of a complete Pentol FGC unit in a few days. This is why Pentol keeps mobile rental units available for testing, wherever an urgent need arises.
For plants equipped with FGD who sell their gypsum, a similar situation exists with FGD availability. If FGD is polluted by dust, the washers need to be cleaned regularly and the dust particles hinder the particle grow of the gypsum, resulting in a grey, watery gypsum of low quality. With Pentol Flue Gas Conditioning, whiteness and humidity of the gypsum are easily increased to comply with your buyer’s specification.
Function of SO3 dosing in plan in harmless PPM size
Liquid, elemental sulphur is stored in a steam heated tank. By means of a dosing pump, the sulfur is transported into the sulphur burner. Together with pre-heated air, the sulphur is converted to SO2. After the sulphur burner, the SO2/air gas mixture is passing the 2-stage converter unit, oxidizing the SO2 to SO3.
Now the SO3 is available for reaction in the flue gas duct. No SO3 is stored in any place and the correct quantity is produced automatically by the system.
In the flue gas duct, the SO3 is condensed immediately at the dosing point and reacts with the fly ash particles, resulting in a lower fly ash resistivity of these particles.
Ash particles with lower resistivity have a higher migration velocity and are collected on the dust collector plates. The dust layer adhering to the collector plate is not working as an insulator anymore, allowing the current of the ESP to work in the electric field instead of heating up the dust layer on the plate.
The obvious effect is a very high efficiency of the ESP and easy removal of the dust from the plates. In fact, after a few days of operation, the ESP will be cleaned by the SO3 and after rapping the bare metal is visible. Cycles between rapping of the plates can be extended for lower emissions and reduced stress of the ESP.
To receive a quote, please talk to a sales engineer in order to find the best possible product for your application.
Containerized Flue Gas Conditioning System
All equipment is tested in our factory, reducing start up time on site considerably.
All equipment is installed inside of 20 foot containers. This makes the system simple to install while protecting all elements from the influence of weather or dust.
Worldwide we have a great range of rental units in all sizes and treatment modes.
What you need, and how you get it.
Example of dust emission reduction
This example shows the deployment of a FGC unit in a German power plant. Before installing FGC technology, a third ESP has been built in-between the existing ESPs and the FGD unit. Nevertheless, emission was too high for the FGD, (> 200 mg/Nm3), necessitating to shut down the boiler every 5 weeks to clean the FGD unit.
Only hours after starting the FGC system, the emission dropped from 240 mg/Nm3 to <40 mg/Nm3 before FGD. The filter has been cleaned within hours and up to the end of operation of this boiler (around 10 years later), the FGC unit has been running permanently without any interruption.
Increasing the efficiency of the ESP, by reducing the Fly Ash Resistivity
Pentol develops products and services for the power industry.
Our goal is to help our customers reduce emission and increase the performance of coal and oil-fired power stations.
Pentol looks back on more than 30 years of successful treatment of boilers and looks forward to a cleaner world.
Ask our staff for a presentation or training.
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We would love to hear from you and discuss any questions you might have personally. Pentol has more than 100
units operating in Europe and successful references in Asia, Middle East and Central America and we are proud to share them with you!
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Each power plant is unique
Customer case (considered use)