Bulk Storage & Handling

Digital Re-print - January | February 2012 Bulk Storage & Handling

Grain & Feed Milling Technology is published six times a year by Perendale Publishers Ltd of the United Kingdom.  All data is published in good faith, based on information received, and while every care is taken to prevent inaccuracies, the publishers accept no liability for any errors or omissions or for the consequences of action taken on the basis of  information published. ©Copyright 2010 Perendale Publishers L td. All rights reserved. No par t of this publication may be reproduced in any form or by any means without prior permission of the copyright owner. Printed by Perendale Publishers Ltd. ISSN: 1466-3872

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FEATURE

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by Alf Croston, Managing Director Croston Engineering, UK C LASSIC  LASSIC  S TYLE  TYLE  CC-HD 

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s with most things in life, the basics remain the same although they may become more sophisticated, or complicated, dependent on one’s viewpoint.

And so it is with this overview covering  the bulk storage and handling of materials in  the animal feed and human food industries, from the intake of raw materials through to  the discharge of finished products. It is barely 60 years since a very high proportion of the milling industry was located at the major ports with raw materials in sacks being transported from the docks by horse and cart and then hoisted up to the various floor  levels for storage there to be cut and tipped into process bins as and when required. Gradually, as more home grown grain became available, together with the advent of  purpose-built lt bulk vehicles and an improved road network, there was a move to country  mills more conveniently located to service   the farming community by buying grain locally, processing it into feed and selling the resultant product back to the farmer. The use of computers and automation  throughout the milling process has reduced what was a labour intensive industry to one controlled by a few technically proficient operators, but to whom the basics of material handling must still apply, as do health and safety requirements, adherence to DSEAR/ ATEX Explosion Regulations, plus health and hygiene control. Hence this résumé.

system, and discharging into a screw or chain  type conveyor which may, if wished, be fitted with a variable speed drive so that the intake rate may be varied to suit the characteristics of the particular material being dealt with in order to prevent overloading subsequent equipment. The conveyor should be fitted with rota tion control and overfeed detection. The intake bucket elevator, as with all similar units in the mill, must incorporate explosion relief panels at prescribed intervals, electrically linked to shut down the plant in  the event of an explosion occurring. Because of their inherent design, bucket elevators have a built-in explosion risk  factor and, if located within a building,   the explosion panels should be ducted to atmosphere. Elevators should also incorporate tensioning gear at the boot, antirunback device to cater for a choke or 

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Interruptions in production The interconnection of process plant is designed to be fail-safe and so prevent chokes and interruption to production. Intake capacity from bulk tankers has greatly increased over the years and is normally well in excess of 100 tonnes/hour  via an intake hopper with safety grid located under cover plus an efficient dust extraction

procedure should be in place to shut down when not in use. A rotary drum pre-cleaner located at the   top of the Mill to remove foreign matter  prior to the material being conveyed to raw material bins will protect subsequent equipment from being damaged. The conveyors feeding silos and bins will have multiple outlets and the electrical control system must be designed so   that only one slide is open at a time in order to prevent the propagation of an explosion from one bin to another. another. As with the intake conveyor, all conveyors should incorporate overfeed detection and rotation sensing. To cater for dust laden air displacement at transfer points, small dust units with builtin exhaust fans at convenient locations will ensure a clean atmosphere.

power failure, rotation sensor to indicate if the belt is slipping and side alignment indication. Intake points are frequently out of sight of the control room so, to avoid being allowed to run empty for long periods, and a

The number, location and holding capacity of new material bins is determined by  site conditions and the particular requirements of individual clients, bearing in mind  the large number of different materials to be handled and stored in the feed industry. Ranging from free flowing grains to a variety  of meals and moisture content, the bins and discharge equipment should be designed to cater for those with the worst flow characteristics to ensure maximum flexibility so  that individual bins can be used for the storage of any ingredients should the need arise. Level probes are required to prevent overfilling, as are policed explosion panels. Provision will be required for minerals and other ingredients that are delivered by bulk tanker and pneumatically conveyed   to dedicated bins utilising either a blower  mounted on the tanker chassis or, in some cases, by coupling up from a land-based blower. To prevent static electricity causing a spark, the tanker will be connected to an

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FEATURE

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earthing point prior to starting   the discharge process. Care is needed to ensure that the tanker only couples up to t he correct intake line feeding the designated bin and that intake lines are of correct diameter, earthed and routed with minimum horizontal length and number of bends in order to reduce the pressure needed to carry out the conveying operation. As referred to earlier, the configuration of hopper design and type of discharge is all-important in ensuring the free flow of  materials from the bins to the blending operation. For accuracy this will include one or more main weigh hoppers, a small weigh hopper for minerals, and a smaller one for  micro ingredients.

The blended batch is fed to the grinding plant preceded by a screen to allow meals and minerals to bypass the grinder before re-joining the ground materials and passing  to a three tier mixing assembly consisting of  pre-mix bin, mixer and dump bin. Molasses and fats are added at the mixer. Although heat treatment is outside this

remit covering bulk  handling it is a matter   that requires attention whether it is for conditioning of mashes for  direct sales or for pelleting. The three essen  tials being moisture,  temperature and time, whilst bearing in mind   the heat sensitivity of  some ingredients. For  pelleting, correct conditioning is necessary to ensure starch gelatinisation and pellet quality. An efficient cooling system is essential prior to finished products being conveyed to packing or bulk out loading bins, the latter  discharging either directly to bulk vehicle or  via a travelling weigher. Most of the materials processed in the animal feed, pet and fish food, grain, flour, bakery, sugar, starch and fertiliser industries are subject to the DSEAR/ ATEX Explosion Regulations   that came into operation on   July 1, 2003. There are many  misconceptions and confusion as to the requirements of the Directives. It is timely to reiterate the general principles relating to the regulations, particularly for those who have only  recently become involved in one or other of the industries in which potentially explosive materials are handled.

complies or can be economically altered to comply. Good housekeeping, regular inspection and maintenance, plus an awareness of  potentially hazardous processes or areas, are a requisite for trouble free operation. The Directives combine combine these aspirations aspirations into requirements requirements and apply not only to the suppliers of equipment but, in particular, to the users themselves.

Dust classification It is the obligation of the user to satisfy himself as to the class or classes of the materials to be handled and to provide this information to the designer or manufacturer  of equipment. These are defined under four Kst classifications (K staube = Class of dust), and relate  to rate of pressure rise.

North America Kst. 0 = Non-explosive Kst. 1 = Weak to moderate Kst. 2 = Strong Kst. 3 = Very strong Most materials used in feed mills are covered under Kst. 1 but there are a f ew to which Kst. 2 could apply.

In addition to dust classification, the user is required to carry out a survey and  to designate plant and buildings into zones which will be appropriately signed at points of entry. Zones 20, 21 and 22 are the most likely to apply to feed milling and associated The Directives industries. The Directives apply from July 1, 2003, Zone 20 covers an area in which an explo to all new equipment and any existing that sive atmosphere consisting of combustible is modified or relocated after this date. This dust in air is present frequently for long has particular relevance in ensuring that, if  periods or continuously. Zone 21 is where an explosive atmosphere purchasing any second-hand equipment, it

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FEATURE

is likely to occur occasionally in normal operation. Zone 22 is where an explosive atmosphere would not normally occur but, if it does, it would only be for a short period. Obviously it is the duty of management to ensure that standards of operation and cleanliness are maintained to meet the requirements requirements of Zone 22 as far as is practical. In carrying out risk assessments it is natural to concentrate on major processing equipment such as silos, grinders, elevators, dust collectors, etc., and to overlook the myriad range of smaller ancillary items that also need to be checked. Typical items include lighting, electrical fittings, motors, level indicators, solenoid valves, control panels. In fact, anything that can generate a spark. It is well known that three elements are required to cause an explosion – dust in suspension at a critical level, oxygen, and a spark or hot surface. The first two are always  there, so it is against the third item that every  precaution must be taken, including satisfac tory earthing throughout the plant. Bear in mind that dust in suspension appearing as a light fog provides the condi tion in which a spark c an cause an explosion. The finer the dust particles the greater the danger because of the increased surface area exposed to atmosphere. The duties of the user having been described in general terms, what about the supplier of the equipment? Firstly, he has to satisfy himself that the user has provided him with all the necessary details concerning classifications of materials to be processed and  the areas in which equipment is to be located,  together with any other relevant information. The supplier then has to ensure that the equipment he supplies is designed, manufac  tured and installed to satisfy requirements by taking all precautions to prevent an explosion but also, and most importantly, to mitigate against an explosion should such an event occur. Equipment can be manufactured in such heavy construction that an explosion would be contained but this is so expensive as to be impractical. The alternative is to fit a certified explosion panel vented to atmosphere  through a nearby wall or roof. Due to the location of plant within a building venting may not be practical and so the fitting of expensive flame quenching or explosion suppression equipment may be required. To prevent the propagation of an explosion, items of equipment should be isolated from each other. An example being to incorporate valves or slides so that only one bin can be filled and and exhausted at a time. Bin dischargers and screw conveyors can be designed with chokes incorporated. The installation of a rubble separator on  the intake system and magnets at appropriate points throughout the plant are obvious precautions.

Very often a primary explosion in itself   the following may be found helpful as an “aide is not dangerous but the vibration it sets memoire” towards good housekeeping; up disturbs any dust lying on floors, beams, • Enforce a strict no-smoking rule, on pain rafters, into the atmosphere. If a source of  of dismissal. ignition is present it can result in a secondary  • Ensure that all electrical equipment, and devastating explosion. So, cleanliness cabling and control panels conform to  throughout the plant is of first priority with relevant standards and regulations, and particular attention being paid to “out of  are kept free of dust. sight” areas and cleaning up spillages imme• Use only t otally enclosed, fan-cooled diately – using one of a variety of vacuum motors, ensuring they are adequately  cleaning systems available. Brushing up is earthed. definitely out – it only disperses the dust • Ensure light fittings are dust-proof. elsewhere. • Test cables and wiring regularly. Despite taking all precautions that one • Locate switchgear and process control can think of, it is sod’s law that incidents still panels in dust-free rooms under light  take place – thankfully not too often in view negative pressure. of increased awareness of the dangers that • Inspect liquid lines regularly for leaks. are always present. Ensure that insulation, if used, has not become impregnated, impregnated, as this could be Examples ignited by electrical trace heating. Three examples illustrate the variety of  • Bund walls around main storage tanks incidents that can happen. should be sized to suit. • Check that bearings, particularly particularly those The first resulted from smouldering material entering a bin, setting off  fitted to elevators and grinders, are not a primary explosion which ruptured the over-heating. • Detect belt slip and misalignment on explosion panel as it was designed to do. Unfortunately the escaping gases caused a elevators – a major source of fires – by  secondary explosion which devastated the rotation and side alignment sensing, and anti-run-back protection.  top floor of the building. As it was impractical to vent every bin to atmosphere it was • Check for possible temperature rise in subsequently agreed with HSE that the top stored bulk materials, which could result in spontaneous combustion. floor over the bins would in future be a “no go” area whilst the plant was in production • Inspect bin interiors using only batteryand for ten minutes afterwards. afterwards. A lockable operated, non-glass, flameproof  inspection lamps, which are suitably  gate was fitted to the access stairs and a warning notice affixed. secured and never allowed to be in The second resulted from a hot spot due contact with the product. (In the past it was not unusual for naked electric  to a malfunction in the motor of a dust unit fitted on top of a grinder expansion hopbulbs to be lowered into bins – at best per. The explosion panel panel ruptured but had protected with a wire guard). • Ensure hot work is carried out only on not been vented to atmosphere through a nearby wall. isolated, cleaned-out plant, against Work  Unfortunately, two employees were Permit issued by management, and provision of fire blankets, extinguishers, etc. standing nearby at the time and were badly  burned. It was interesting to note that a Many fires have occurred during periods choke had been fitted to the bin discharger  of repair, renovation or plant modification (as in the case of Windsor Castle a few beneath the expansion hopper and prevented the explosive gases passing into years ago). During these special periods, in a subsequent elevator and storage bins, addition to taking fire precautions, it is advisotherwise the result would have been even able to inspect the area closely for at least an more serious. hour at the end of each working day. The third was caused by welding being Adherence to these principles will ensure carried out on the side of a silo, one of  not only a pleasant environment in which to several such accidents over the years, in work but also one that is as intrinsically safe which the operator was injured. In this as possible. case it was not the result of negligence. The silo had been isolated from its feeding conveyor, cleaned down internally and the subject of a work permit. Unfortunately, About the author: a small amount of material had remained Mr Alf Croston is managing director  in an inaccessible spot and on being of Croston Engineering, at Tarvin, near  disturbed created the conditions for an Chester, which was founded in 1976. explosion to take place. His company specialises in the design The foregoing describes in broad outline and building of bulk storage, handling   the rationale behind the ATEX Directives. and process plants throughout the UK  Many of the requirements are common sense, and Ireland for many household names but common sense has to be backed up with in industry. documentation in this day and age. However,

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Bulk storage & handling

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Efficiency

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Increasing storage capacity

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Digital microwave moisture measurement

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Globalgrain& feedmarkets

Energy saving in flourmilling 

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