Acoustic cleaning
Encyclopedia
Acoustic cleaning is used wherever there is a build-up of dry materials and particulates which need to be cleaned regularly to ensure maximum efficiency, and minimize maintenance and down time. An acoustic cleaner works by generating powerful sound waves which will vibrate the dry materials differently to each other and the surrounding structures.
An acoustic cleaner is powered by compressed air with an operating range of between 4.8 to 6.2 bars or 70 to 90 psi. The resultant sound pressure level will be around 200dB.
The overall length of the acoustic cleaner will range from between 430 mm to over 3 metres long.
There are generally 4 ways to control the operation of an acoustic cleaner.
An acoustic cleaner will typically sound for 10 seconds and then wait for a further 500 seconds before sounding again. This ratio for on/off is approximately proportional to the working life of the diaphragm. Provided the operating environment is between – 40 and 100 °C a diaphragm should last between 3 and 5 years. The wave generator and the bell have a much longer life span and will often outlast the environment in which they operate.
The older bells which were made from cast iron were susceptible to rust
ing in certain environments. The new bells made from 316 spun steel have no problem with rust and are ideal for sterile environments such as found in the food industry or in pharmaceutical plants.
Acoustic cleaning began in the early 1970s with experiments using ship horns or air raid sirens. The first acoustic cleaners were made from cast iron
. From 1990 onwards the technology became commercially viable and began to be used in dry processing, storage, transport, power generation and manufacturing industries. The latest technology uses 316 spun stainless steel to ensure optimum performance.
up to 420 Hz. Occasionally there is a requirement to operate in the infrasonic range below 40 Hz. This would apply if there were strict noise control
requirements, or there was limited plant access.
There are three scientific fields which converge in the understanding of acoustic cleaning technology.
An acoustic cleaner will create a series of very rapid and powerful sound induced pressure fluctuations which are then transmitted into the solid particles of ash, dust
, granules or powder. This causes them to move at differing speeds and debond from adjoining particles and the surface that they are adhering to. Once they have been separated then the material will fall off due to gravity or it will be carried away by the process gas or air stream.
The key features which determine whether or not an acoustic cleaner will be effective for any given problem are the particle size range, the moisture content and the density
of the particles as well as how these characteristics will change with temperature and time.
Typically particles between 20 micrometres and 5 mm with moisture content below 8.5% are ideal. Upper temperature limits are dependent upon the melting point of the particles and acoustic cleaners have been employed at temperatures above 1000 C to remove ash build-up in boiler plants.
It is important to match the operating frequencies to the requirements. Higher frequencies can be directed more accurately whilst lower frequencies will carry further, and are generally used for more demanding requirements. A typical selection of frequencies available would be as follows:
cleaning - the previous solutions tended to be intrusive or destructive. Air cannons, soot blower
s, external vibrators, hammering or costly man entry are all superseded by non invasive sonic horns.
An acoustic cleaner requires no down time and will operate during normal usage of the site.
If we take the example of silo cleaning a little further, then there are two typical problems.
These advantages mean that the financial payback is often very quick.
It is also possible to compare acoustic cleaners directly to alternative solutions.
History and Design
An acoustic cleaner consists of 2 parts.- The wave generator which takes the compressed air and applies it to a diaphragmDiaphragm (acoustics)In the field of acoustics, a diaphragm is a transducer intended to faithfully inter-convert mechanical motion and sound. It is commonly constructed of a thin membrane or sheet of various materials. The varying air pressure of the sound waves imparts vibrations onto the diaphragm which can then be...
. The wave generator is usually made from solid machined stainless steelStainless steelIn metallurgy, stainless steel, also known as inox steel or inox from French "inoxydable", is defined as a steel alloy with a minimum of 10.5 or 11% chromium content by mass....
. The diaphragm within the generator is the only moving part within an acoustic cleaner and there is no danger of sparking. The diaphragm is usually manufactured from special aerospace grade titanium to ensure performance and longevity. - The bell, which is usually made from spun 316 grade stainless steel. The bell is a resonance section or amplifier and it will tune and direct the sound waves.
An acoustic cleaner is powered by compressed air with an operating range of between 4.8 to 6.2 bars or 70 to 90 psi. The resultant sound pressure level will be around 200dB.
The overall length of the acoustic cleaner will range from between 430 mm to over 3 metres long.
There are generally 4 ways to control the operation of an acoustic cleaner.
- The most common is by a simple timer.
- SCADASCADASCADA generally refers to industrial control systems : computer systems that monitor and control industrial, infrastructure, or facility-based processes, as described below:...
(Supervisory Control and Data Acquisition). - PLC (programmable logic controllerProgrammable logic controllerA programmable logic controller or programmable controller is a digital computer used for automation of electromechanical processes, such as control of machinery on factory assembly lines, amusement rides, or light fixtures. PLCs are used in many industries and machines...
). - Manually by Ball valveBall valveA ball valve is a valve with a spherical disc, the part of the valve which controls the flow through it. The sphere has a hole, or port, through the middle so that when the port is in line with both ends of the valve, flow will occur. When the valve is closed, the hole is perpendicular to the ends...
.
An acoustic cleaner will typically sound for 10 seconds and then wait for a further 500 seconds before sounding again. This ratio for on/off is approximately proportional to the working life of the diaphragm. Provided the operating environment is between – 40 and 100 °C a diaphragm should last between 3 and 5 years. The wave generator and the bell have a much longer life span and will often outlast the environment in which they operate.
The older bells which were made from cast iron were susceptible to rust
Rust
Rust is a general term for a series of iron oxides. In colloquial usage, the term is applied to red oxides, formed by the reaction of iron and oxygen in the presence of water or air moisture...
ing in certain environments. The new bells made from 316 spun steel have no problem with rust and are ideal for sterile environments such as found in the food industry or in pharmaceutical plants.
Acoustic cleaning began in the early 1970s with experiments using ship horns or air raid sirens. The first acoustic cleaners were made from cast iron
Cast iron
Cast iron is derived from pig iron, and while it usually refers to gray iron, it also identifies a large group of ferrous alloys which solidify with a eutectic. The color of a fractured surface can be used to identify an alloy. White cast iron is named after its white surface when fractured, due...
. From 1990 onwards the technology became commercially viable and began to be used in dry processing, storage, transport, power generation and manufacturing industries. The latest technology uses 316 spun stainless steel to ensure optimum performance.
Operation and performance
The majority of acoustic cleaners operate in the audio sonic range from 60 hertzHertz
The hertz is the SI unit of frequency defined as the number of cycles per second of a periodic phenomenon. One of its most common uses is the description of the sine wave, particularly those used in radio and audio applications....
up to 420 Hz. Occasionally there is a requirement to operate in the infrasonic range below 40 Hz. This would apply if there were strict noise control
Noise control
Noise control is an active or passive means of reducing sound emissions, often incentivised by personal comfort, environmental considerations or legal compliance. Practical and efficient noise control is wholly reliant on an accurate diagnosis of what is causing the noise, which first involves...
requirements, or there was limited plant access.
There are three scientific fields which converge in the understanding of acoustic cleaning technology.
- Sound propagation. This relates to an understanding of the nature of the sound waves, how they vary and how they will interact with the environment.
- Mathematics of the environment. Materials scienceMaterials scienceMaterials science is an interdisciplinary field applying the properties of matter to various areas of science and engineering. This scientific field investigates the relationship between the structure of materials at atomic or molecular scales and their macroscopic properties. It incorporates...
, surface frictionFrictionFriction is the force resisting the relative motion of solid surfaces, fluid layers, and/or material elements sliding against each other. There are several types of friction:...
, distanceDistanceDistance is a numerical description of how far apart objects are. In physics or everyday discussion, distance may refer to a physical length, or an estimation based on other criteria . In mathematics, a distance function or metric is a generalization of the concept of physical distance...
and areas familiar to a mechanical engineer. - Chemical engineeringChemical engineeringChemical engineering is the branch of engineering that deals with physical science , and life sciences with mathematics and economics, to the process of converting raw materials or chemicals into more useful or valuable forms...
. The chemical properties of the powder or substance to be debonded. Especially the auto adhesive properties of the powder.
An acoustic cleaner will create a series of very rapid and powerful sound induced pressure fluctuations which are then transmitted into the solid particles of ash, dust
Dust
Dust consists of particles in the atmosphere that arise from various sources such as soil dust lifted up by wind , volcanic eruptions, and pollution...
, granules or powder. This causes them to move at differing speeds and debond from adjoining particles and the surface that they are adhering to. Once they have been separated then the material will fall off due to gravity or it will be carried away by the process gas or air stream.
The key features which determine whether or not an acoustic cleaner will be effective for any given problem are the particle size range, the moisture content and the density
Density
The mass density or density of a material is defined as its mass per unit volume. The symbol most often used for density is ρ . In some cases , density is also defined as its weight per unit volume; although, this quantity is more properly called specific weight...
of the particles as well as how these characteristics will change with temperature and time.
Typically particles between 20 micrometres and 5 mm with moisture content below 8.5% are ideal. Upper temperature limits are dependent upon the melting point of the particles and acoustic cleaners have been employed at temperatures above 1000 C to remove ash build-up in boiler plants.
It is important to match the operating frequencies to the requirements. Higher frequencies can be directed more accurately whilst lower frequencies will carry further, and are generally used for more demanding requirements. A typical selection of frequencies available would be as follows:
- 420 Hz for a small acoustic cleaner which might be used to clear bridging at the base of a silo.
- 350 Hz will be more powerful and this frequency can be used to unblock material build-up in ID (induced draft) fans, filters, cyclones, mixers, dryers and coolers.
- 230 Hz. At this frequency, the power involved is sufficient to use in most electricity generationElectricity generationElectricity generation is the process of generating electric energy from other forms of energy.The fundamental principles of electricity generation were discovered during the 1820s and early 1830s by the British scientist Michael Faraday...
applications. - 75 Hz and 60 Hz. These are generally the most powerful acoustic cleaners and are often used in large vessels and siloStorage siloA silo is a structure for storing bulk materials. Silos are used in agriculture to store grain or fermented feed known as silage. Silos are more commonly used for bulk storage of grain, coal, cement, carbon black, woodchips, food products and sawdust. Three types of silos are in widespread use...
s.
Health and safety
The introduction of acoustic cleaners has been a significant improvement in many areas of health and safety. For instance in siloStorage silo
A silo is a structure for storing bulk materials. Silos are used in agriculture to store grain or fermented feed known as silage. Silos are more commonly used for bulk storage of grain, coal, cement, carbon black, woodchips, food products and sawdust. Three types of silos are in widespread use...
cleaning - the previous solutions tended to be intrusive or destructive. Air cannons, soot blower
Soot blower
A Sootblower is a system for removing the soot that is deposited on the furnace tubes of a boiler during combustion. Various types of soot blowers such as Wall Blowers, Long Retractable Blowers and Air Heater Blowers are used for the cleaning...
s, external vibrators, hammering or costly man entry are all superseded by non invasive sonic horns.
An acoustic cleaner requires no down time and will operate during normal usage of the site.
If we take the example of silo cleaning a little further, then there are two typical problems.
Bridging
This is when the silo blocks at the outlet. Previously the problem was addressed by manual cleaning from underneath the silo which in its turn introduced significant risk from falling material when the blockage was cleared. An acoustic cleaner is able to operate from the top of a silo through in situ material to clear the blockage at the base.Rat holing
Compaction on the side of a silo. This not only reduces the operating volume in a silo but it also compromises quality control by disrupting the first in first out cycle. Older material compacted on the side of a silo can also start to degrade and produce dangerous gases. An acoustic cleaner will produce sound waves which will make the compacted material resonate at a different rate to the surrounding environment resulting in debonding and clearance.Advantages of Acoustic cleaners
- Repetitive use during operations means that there are fewer unscheduled shut downs.
- Improved material flow by the elimination of hang-ups, blocking and bridging.
- Minimisation of cross contamination by ensuring complete emptying of the environment.
- Improved cleaning and reduction of health and safety risks.
- Increased energy efficiency. Reducing the build up on heat exchange surfaces results in lower energy usage.
- Extended plant life. Aggressive cleaning regimes are avoided.
- Ease of operation. It is easy to automate the horns either at regular intervals or to tie the sounding in to changes in their environment such as pressure or flow rates.
- Importantly they prevent the material build up problem from occurring in the first place.
These advantages mean that the financial payback is often very quick.
It is also possible to compare acoustic cleaners directly to alternative solutions.
- Air cannons. These are well established but are expensive with limited coverage thus requiring multi unit purchase. They are also noise intrusive and have a high compressed air consumption.
- Vibrators. These are easy to fit to an empty silo but can cause structural damage as well as contributing to powder compaction.
- Low friction linings. These are very quiet but are expensive to install. Also they are prone to erosion and can then contaminate the environment or product.
- Inflatable pads and liners. Again these are easy to install in an empty silo. They help side wall build up but have no impact on bridging. They are also hard to maintain and can cause compaction.
- Fluidisation through a 1 way membrane. This can help already compacted material. However they are expensive and difficult to install and maintain. They can also contribute to mechanical interlocking and bridging.
Specific applications for Acoustic cleaners
- BoilerBoilerA boiler is a closed vessel in which water or other fluid is heated. The heated or vaporized fluid exits the boiler for use in various processes or heating applications.-Materials:...
s. Cleaning of the heat transfer surfaces. - Electrostatic precipitatorElectrostatic precipitatorAn electrostatic precipitator , or electrostatic air cleaner is a particulate collection device that removes particles from a flowing gas using the force of an induced electrostatic charge...
s. Acoustic cleaners are being used for cleaning hoppers, turning vanes, distribution plates, collecting plates and electrode wires. - Super heaters, economisers and air heaters.
- Duct work.
- Filters. Acoustic cleaners are used on reverse air, pulse jet and shaker units. They are effective in reducing pressure drop across the collection surface which will increase bag life and prevent hopper pluggage. Generally they can totally replace the both reverse air fans and shaker units and significantly reduce the compressed air requirement on pulse jet filters.
- ID fans. Acoustic cleaning helps to provide a uniform cleaning pattern even for inaccessible parts of the fan. This maintains the balance of the fan.
- KilnKilnA kiln is a thermally insulated chamber, or oven, in which a controlled temperature regime is produced. Uses include the hardening, burning or drying of materials...
inlet. Acoustic cleaners help to prevent particulate build up at the kilnKilnA kiln is a thermally insulated chamber, or oven, in which a controlled temperature regime is produced. Uses include the hardening, burning or drying of materials...
inlet and this will minimise nose ring formation. - Mechanical pre Collectors. Acoustic cleaners help prevent build up around the impellers and between the tubes.
- Mills. Acoustic cleaners help maintain material flow and also prevent blockages in the pre grind silos. They also help prevent material build up in the downstream separators and fans.
- Planetary Coolers. Acoustic cleaners help prevent bridging and ensure complete evacuation.
- Precipitator. Acoustic cleaners help clean the turning vanes, distribution plates, collecting plates and electrode wires. They can either assist or replace the mechanical rapping systems. They also prevent particulate build up in the under hoppers which would otherwise result in opacity spiking.
- Pre heaters. Used in towers, gas risers, cyclones and fans.
- Ship cargo holds. Used both to clean and de aerate current loads.
- Silos and hoppersSilo cleaningSilo cleaning is a process to maximize the efficiency of storage silos that hold bulk powders or granules. In silos, material is fed through the top and removed from the bottom...
. To prevent bridging and rat holing. - Static cyclones. Acoustic cleaners will work both within the cyclone and with the associated duct work.
See also
- Ultrasonic cleaner - Cleaning using higher frequencies than those found in acoustic cleaners.
- Sonic soot blowersSonic soot blowersthumb| Sonic soot blowerSonic soot blowers offer a cost-effective and non-destructive means of preventing ash and particulate build-up within the power generation industry. They use high energy – low frequency sound waves that provide 360° particulate de-bonding and at a speed in excess of 344...
- Cleaners targeted at ash and particulate build ups.
External links
- Infrafone - Sonic soot cleaning.
- Acoustic cleaners The technology and specifications used in the article are provided by Primasonics.
- Acoustic Cleaning Systems Acoustic cleaning specifications, troubleshooting, and technical information provided by GE Energy.