Selection, Packaging and storage SIEVES The size grading of dehydrates is an important function, both in the interests of quality and presentation, and also for the purpose of obtaining the optimum return on products undersize, or less than the standard cut. With almost all cut vegetables and fruits, there will be off-cuts from the dicers or cutters, which can be effectively separated from the primary product by the use of effective sieving machines The recommended type of sieve for all dehydrates, whether wh product, diced, sliced or comminuted, is a high centrifugal force vibratory screen with adjustable amplitude and pitch. The Russell Finex 22 as illustrated in Chapter 5 is ideal for screening potato granules in the final stage of sifting the potato mash powder through a 250 micron or even finer mesh, whilst the Finex 48 Vibro Separator with two decks is highly recommended for the initial stage of screening the blend from the primary dryer, from which point one fraction returns to the mixing plant and the other to the secondary dryer and then to the final screenin The finex 48 a screening vegetables and fruits after bin drying and aspiration(where applicable)and before the final inspection and packing. Again, this machine has adjustable amplitude and pitch for any desired flow pattern, which is absolutely necessary to obtain perfect size separation Debinding devices can be fitted
I1 Selection, Pac kagi ng and Storage SIEVES The size grading of dehydrates is an important function, both in the interests of quality and presentation, and also for the purpose of obtaining the optimum return on products undersize, or less than the standard cut. With almost all cut vegetables and fruits, there will be off-cuts from the dicers or cutters, which can be effectively separated from the primary product by the use of effective sieving machines. The recommended type of sieve for all dehydrates, whether whole product, diced, sliced or comminuted, is a high centrifugal force vibratory screen with adjustable amplitude and pitch. The Russell Finex 22 as illustrated in Chapter 5 is ideal for screening potato granules in the final stage of sifting the potato mash powder through a 250 micron or even finer mesh, whilst the Finex 48 Vibro Separator with two decks is highly recommended for the initial stage of screening the blend from the primary dryer, from which point one fraction returns to the mixing plant and the other to the secondary dryer and then to the final screening. The Finex 48 is also very effective as a screening machine for all vegetables and fruits after bin drying and aspiration (where applicable) and before the final inspection and packing. Again, this machine has adjustable amplitude and pitch for any desired flow pattern, which is absolutely necessary to obtain perfect size separation. Deblinding devices can be fitted 225
to both types of screen for products which are prone to'blind'the mesh during extended usage powders, which are fed into the lower bin and then drawn up to granules and The illustrated self-loading sieve is also suited to handlin gallery above the mesh of the self-loading sieve by vacuum. The air is separated from the material via an integral filter mounted in the lid of the sieve and taken away either by a venturi or electric vacuum pump. A timer control switches off the vacuum and sieved material drops into a suitable container sited below which, in the case of potato granules, could be end packaging sacks and liners. This type of arrangement may suit some lay-outs but is invariably regarded as more suitable for granules or powder than cut A useful range of sieves for dehydrated vegetables and fruits is as follo Round-hole screens: From 4mm to 9mm in increments of 0. 4mm -stainless steel Slotted screens: 19mm by 2.5mm and 25mm by 3mm- stainless steel Woven wire screens: 1.5mm, 1.2mm, 1mm, 0.85mm-stainless steel The above would cover the screening of most types of fruit and vegetables For Potato Granules and Powders the sieves range between 350 microns to 150 microns. A 250 micron screen is commonly used for the pack-off granules in the final sieving. Powder screens may be stainless steel nvlon The processor must select the size of screen most suitable for the product being graded, bearing in mind what outlets there are for the'through' material with any particular size of aperture ome off-cuts from 9.5mm dice, for example, are useful for soup formulations, where the particle shape may not be too critical. For a quality soup, however, the vegetable is usually cut to the appropriate size, initially in When screening 9.5mm carrot dice(in the dry state), with a 4.8mm sieve on the top of the e scree en, about 10 percent will pass through as off-cuts orSmall cut, and a rather smaller percentage when sieving potato. With a 6. 4mm sieve fitted, up to 20 percent will pass through. The decision on which to use, can only be made in the light of circumstances, taking into account the buyers specification for the appearance and size of the main product, and what outlet there may be for the smaller particle fraction In addition to these two fractions, using a twin deck screen, a 1.2mm screen can be used at the lower level to take out fines which can be milled for vegetable powder in a Turbo Mill
to both types of screen for products which are prone to ’blind’ the mesh during extended usage. The illustrated self-loading sieve is also suited to handling granules and powders, which are fed into the lower bin and then drawn up to the dust-tight gallery above the mesh of the self-loading sieve by vacuum. The air is separated from the material via an integral filter mounted in the lid of the sieve and taken away either by a venturi or electric vacuum pump. A timer control switches off the vacuum and sieved material drops into a suitable container sited below which, in the case of potato granules, could be end packaging sacks and liners. This type of arrangement may suit some lay-outs but is invariably regarded as more suitable for granules or powder than cut products. A useful range of sieves for dehydrated vegetables and fruits is as follows: Round-hole screens: From 4mm to 9mm in increments of 0.4mm - stainless steel. Slotted screens: 19mm by 2.5mm and 25mm by 3mm - stainless steel. Woven wire screens: 1.5mm, 1.2mm, lmm, 0.85mm - stainless steel. The above would cover the screening of most types of fruit and vegetables. For Potato Granules and Powders the sieves range between 350 microns to 150 microns. A 250 micron screen is commonly used for the pack-off granules in the final sieving. Powder screens may be stainless steel or occasionally nylon. The processor must select the size of screen most suitable for the product being graded, bearing in mind what outlets there are for the ’through’ material with any particular size of aperture. Some off-cuts from 9.5mm dice, for example, are useful for soup formulations, where the particle shape may not be too critical. For a quality soup, however, the vegetable is usually cut to the appropriate size, initially in the raw state. When screening 9.5mm carrot dice (in the dry state), with a 4.8mm sieve on the top of the screen, about 10 percent will pass through as off-cuts or ’Small cut’, and a rather smaller percentage when sieving potato. With a 6.4mm sieve fitted, up to 20 percent will pass through. The decision on which to use, can only be made in the light of circumstances, taking into account the buyers’ specification for the appearance and size of the main product, and what outlet there may be for the smaller particle fraction. In addition to these two fractions, using a twin deck screen, a 1.2mm screen can be used at the lower level to take out fines which can be milled for vegetable powder in a Turbo Mill. 226
SELECTION manual and visual selection of some dehydrated necessary, as the particle size may not lend itself to electronic colour sorting The latter method can be adopted for free-flowing material, such as dice, peas and some flaked vegetables, but is unsuitable for strips, rings and leaf products. Manual selection of dehydrates is carried out on PVC-coated inspection belts 7m long and 60cm wide for a medium throughput deally, these belts should be fitted with a feed hopper incorporating a vibrating tray or chute, giving a controlled and metered feed of material across the belt. Bucket and belt elevators, and auger feeds, should be avoided in conveying diced material at any point of the process, as these cause severe abrasion and loss of product, and they are difficult to clean. a well-designed elevator, with moulded rubber flights, or a spiral vibratory elevator are the only satisfactory means of elevating and conveyin ng dry material The selection belts should accommodate a team of women on either side and there should be good natural light in day-time, as the inspection is tedious and liable to cause eyestrain in poor light. Whilst white is an hygienic colour for belts, it may be found beneficial to use other colours which will highlight the blemish that has to be removed There is always a risk of metal abrasion in the plant at some point or another, and it is essential to have a series of powerful permanent magnets fitted on the selection belts. One of these should bridge the belt, across its width, just high enough to allow the material to pass underneath. At the end of the belt, where the material discharges, it is a wise precaution to have a second pair of magnets set at about 45 to each other, over and under which the product cascades into the collecting hopper These magnets will, of course, only abstract ferrous metal, and most processors install a more sophisticated electronic detector for all types of non ferrous foreign matter which may pass over the belt. These detectors are designed to stop the belt when any extraneous matter is detected, and it is then The speed of the selection belts should be from 4 to 5m per minute, according to the capability and availability of the staff and the means of selecting efficiently. The recommended loading rate for onion slices, for Xample, is 250g per metre of belt length. ELECTRONIC COLOUR SORTING This method has made tremendous strides in the last five years, and Sortex Ltd of London are specialists in this field, having made an extensive study of the dehydrator's requirements Their machines are capable of efficient throughputs of vegetable dice, flakes, peas and particles smaller than dice, although in the latter case the
SELECTION Manual and visual selection of some dehydrated products is still necessary, as the particle size may not lend itself to electronic colour sorting. The latter method can be adopted for free-flowing material, such as dice, peas and some flaked vegetables, but is unsuitable for strips, rings and leaf products. Manual selection of dehydrates is carried out on PVC-coated inspection belts 7m long and 60cm wide for a medium throughput. Ideally, these belts should be fitted with a feed hopper incorporating a vibrating tray or chute, giving a controlled and metered feed of material across the belt. Bucket and belt elevators, and auger feeds, should be avoided in conveying diced material at any point of the process, as these cause severe abrasion and loss of product, and they are difficult to clean. A well-designed elevator, with moulded rubber flights, or a spiral vibratory elevator are the only satisfactory means of elevating and conveying dry materials. The selection belts should accommodate a team of women on either side and there should be good natural light in day-time, as the inspection is tedious and liable to cause eyestrain in poor light. Whilst white is an hygienic colour for belts, it may be found beneficial to use other colours which will highlight the blemish that has to be removed. There is always a risk of metal abrasion in the plant at some point or another, and it is essential to have a series of powerful permanent magnets fitted on the selection belts. One of these should bridge the belt, across its width, just high enough to allow the material to pass underneath. At the end of the belt, where the material discharges, it is a wise precaution to have a second pair of magnets set at about 45" to each other, over and under which the product cascades into the collecting hopper. These magnets will, of course, only abstract ferrous metal, and most processors install a more sophisticated electronic detector for all types of non ferrous foreign matter which may pass over the belt. These detectors are designed to stop the belt when any extraneous matter is detected, and it is then manually removed. The speed of the selection belts should be from 4 to 5m per minute, according to the capability and availability of the staff and the means of selecting efficiently. The recommended loading rate for onion slices, for example, is 250g per metre of belt length. ELECTRONIC C O L O U R S O R T I N G This method has made tremendous strides in the last five years, and Sortex Ltd of London are specialists in this field, having made an extensive study of the dehydrator's requirements. Their machines are capable of efficient throughputs of vegetable dice, flakes, peas and particles smaller than dice, although in the latter case the 227
throughput is obviously restricted, as each particle has to be scann individually Some types of optical colour sorters operate by feeding material through an optical box fitted with sixteen photo-electric cells, for each of 10 chutes which scan the surface colour of the product against automatically adjusted backgrounds. Pieces which are 'in-balance as to colour, pass through an accepted'delivery chute at the bottom of the machine, and those which are foreign to the background are blown out of trajectory, by a fine jet of electronically signalled compressed air, through a ' spout at the back of Modern machines may operate from a common feed, and have a throughput capability of 1200kg per hr with some types of vegetable dice cut to 3/8in. by 3/8in. by 3/8in (10mm cubes) These machines are progressively replacing manual inspection of dehydrated vegetables as they are infinitely cheaper to operate. Some final visual inspection is always advisable, however, after the product leaves the colour sorter but this is mainly a policing'operation, and only makes minimal demands on staff. The use of electronic sorters, however, demand the employment of highly skilled personnel to service them Air Separation Some products lend themselves to quality grading and selection by aspiration, and very efficient machines are now available for this purpose. It sometimes happens that the fraction of material to be abstracted from a product has a different specific gravity from the acceptable fraction. A finely balanced air separator will deal with this abstraction very adequately, and will save hours of manual selection Two examples of this are the coarse core pieces present in cabbage, and the green fraction of leeks. Both of these fractions can be eliminated by aspiration and air separation PACKAGING Both materials and units of packaging must satisfy a specific set of (1)They must be compatible, costwise, with the value of the product they are designed to carry They must give protection against the ingress of moisture, light, air and infestation by vermin and insects (3)They must be sufficiently strong and stable to protect the product from damage by abrasion, and a considerable degree of handling in store and in transit: (4)Materials must be approved for contact with a food product
throughput is obviously restricted, as each particle has to be scanned individually. Some types of optical colour sorters operate by feeding material through an optical box fitted with sixteen photo-electric cells, for each of 10 chutes, which scan the surface colour of the product against automatically adjusted backgrounds. Pieces which are ‘in-balance’ as to colour, pass through an ’accepted’ delivery chute at the bottom of the machine, and those which are ‘foreign’ to the background are blown out of trajectory, by a fine jet of electronically signalled compressed air, through a ‘reject’ spout at the back of the machine. Modern machines may operate from a common feed, and have a throughput capability of 1200kg per hr with some types of vegetable dice cut to 3/8in. by 3/8in. by 3/8in (10mm cubes). . These machines are progressively replacing manual inspection of dehydrated vegetables as they are infinitely cheaper to operate. Some final visual inspection is always advisable, however, after the product leaves the colour sorter but this is mainly a ’policing’ operation, and only makes minimal demands on staff. The use of electronic sorters, however, demand the employment of highly skilled personnel to service them. Air Separation Some products lend themselves to quality grading and selection by aspiration, and very efficient machines are now available for this purpose. It sometimes happens that the fraction of material to be abstracted from a product has a different specific gravity from the acceptable fraction. A finely balanced air separator will deal with this abstraction very adequately, and will save hours of manual selection. Two examples of this are the coarse core pieces present in cabbage, and the green fraction of leeks. Both of these fractions can be eliminated by aspiration and air separation. PACKAGING Both materials and units of packaging must satisfy a specific set of requirements: (1) They must be compatible, costwise, with the value of the product they are designed to carry; (2) They must give protection against the ingress of moisture, light, air and infestation by vermin and insects; (3) They must be sufficiently strong and stable to protect the product from damage by abrasion, and a considerable degree of handling in store and in transit; (4) Materials must be approved for contact with a food product; 22%
(5) Size and shape must be acceptable from a distribution and storage point of view BULK PACKAGING ble dice and small cuts, granules and flakes are usually multi-ply paper sacks with a polyethylene liner inside. This packaging is acceptable where the abrasion factor is low but it is not so suitable for such products as onions, green beans and cabbage A suitable specificationfor a 5-ply paper sack for dehydrated vegetables l outer ply 36lb wet strength kraft \a inner ply 521b Union kraft(bitumen impregnated) inner plies 36lb natural kraft. Above specification is based on UK standards Above: Vibratory packing table made by Valley Products Lid for the consolidation of bulk materials: it is suitable for packing dehydrated products in tins
(5) Size and shape must be acceptable from a distribution and storage point of view. BULK PACKAGING Peas, vegetable dice and small cuts, granules and flakes are usually packed in multi-ply paper sacks with a polyethylene liner inside. This packaging is acceptable where the abrasion factor is low but it is not so suitable for such products as onions, green beans and cabbage. A suitable specification for a 5-ply paper sack for dehydrated vegetables is: 1 outer ply 361b wet strength kraft; 1 inner ply 521b Union kraft (bitumen impregnated); 3 inner plies 361b natural kraft. Above specification is based on UK standards. Above: Vibratory packing table made by Valley Products Ltd for the consolidation of bulk materials; it is suitable for packing dehydrated products in tins. 229