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British Food Journal

Subject:
Food Science
Publisher:
Emerald Group Publishing Limited
Emerald Publishing
ISSN:
0007-070X
Scimago Journal Rank:
86
journal article
LitStream Collection
British Food Journal Volume 44 Issue 1 1942

1942 British Food Journal

doi: 10.1108/eb011361

Although a sheet of viscose film, such as cellophane, is so compact in structure as to be quite airtight, experimental work has shown that water vapour can evaporate as quickly from a vessel closed with it as from the open container. A wrapper composed of viscose film can be rendered impermeable to moisture vapour by covering the surfaces with a very thin layer of moistureproof transparent coating which often contains, as an essential ingredient, a small quantity of wax. It is wrappings of the latter moistureproof type which are normally used round cigarette cartons and often round biscuits and sweet packages. Unbroken films of wax are resistant to the passage of moisture vapour, and waxed papers are therefore largely used for the protection of foodstuffs. Not all waxed papers, or socalled moisturevapourproof transparent wrappings, are satisfactorily impermeable to moisture vapour, and it is essential to test such materials to determine their actual protective powers. While complete protection against moisture exchange is advisable for most types of goods liable to dry out or for those which will deliquesce, it should be realised that there may be other factors that will prevent their being used. Some goods coated with cane sugar are found to keep best if in packings where they can breathe. If, owing to a rise in temperature, the atmosphere in the moisturevapourproof wrapping should become saturated with moisture vapour, this would be deposited in droplets on the surface of the goods if the package were suddenly cooled. A dilute solution of sugar might be formed at the point of deposition, which would then be a favourable medium for the growth of aerial moulds and microorganisms. In many cases wrongly wrapped foods betray their deterioration by easily apparent signs, such as the hardness of bread, the stickiness of sweets or the odour of putrificd material. It is, however, quite possible for a loss in quality to occur which is only noticeable in flavour deterioration when the article is consumed, and an important instance of this is tea. Care must be taken that the wrapping itself does not impart a foreign flavour to the foodstuff packed in it, or induce one through permitting or accelerating chemical changes, such as oxidation development of rancidity. Some of the transparent moisturevapourproof wrappings on the market have a strong flavour liable to contaminate goods wrapped in them, as have some waxed papers and ordinary boards used for cartons. Printing inks and adhesives used on cartons may also affect the flavour and odour of foodstuffs, unless properly chosen and properly used on the cartons. These odours will penetrate wrappers if the latter are not airtight, and instances are known where really expensive articles of food have been spoiled in flavour because strongsmelling strawboards have been used as the foundation of the very elaborate and decorative boxes in which the foodstuff was packed. Rancidity development in fatty foods may be accelerated in several ways. It is well known that sunlight promotes the formation of rancidity, and fatty foods in ordinary transparent wrappings may deteriorate on this account. Attempts have been made to produce coloured transparent wrappers which will absorb the active light rays, and so prevent rancidity developing while at the same time allowing the goods wrapped to be visible. Some of these wrappers were so dark in colour that they were valueless for display purposes, but, according to advertised claims, some golden yellow transparent wrappers of good transparency and protective power are now available. There are available, however, wrappers treated with antioxidants of the oatflour type which are claimed to arrest the development of surface rancidity of fatty foods packed in them. The last generation has seen the advent of scientific control and development in the catering business. Individual restaurants or hotels cannot afford to employ chemists, and with the exception of the large organisations owning a series of restaurants, the hotelier or restaurateur has to rely on the efforts of consultants or on the makers of the plant and machinery installed in his establishment. This help has been very valuable particularly as the amount of mechanical aids in restaurant kitchens has become during the last half century very considerable. Such devices as mechanical beaters or whippers, small doughing machines, mechanically or electrically controlled refrigerators, are but examples. Possibly one of the most interesting developments has been in the installation of mechanical washing machines for plates, dishes, cups, knives, etc. The number of pieces of china and cutlery is perhaps not appreciated. The modest twocourse lunch means that twelve articles, all of different sizes, shapes or materials of construction, must be washed the sevencourse dinner requires 3040 articles. The organisation to provide these articles in a steady stream sufficient for the needs of some hundreds of customers in the course of an hour or so must be very complicated, and one of the important cogs in the machine is washing up. In the domestic scullery, unless particular precautions are taken, hot, hard water and soap are taken, and, by their admixture, produce a shiny scum which is mixed up with the soapy water. This scum and the water itself become loaded with grease during the washing process and the china is removed, carrying on its surface dirty, greasy, soapy water with its complement of soap scum. These are then wiped off with a drying cloth clean at first, but becoming gradually impregnated with grease, soap and scum, with the result that the surface of the china is finally covered with a thin transparent film of these objectionable substances. If the china, after removal from the washbowl and when still wetted with greaseladen soapy water, were rinsed under the hot tap until all this wash water were removed and replaced by clean hot water, and the china were then allowed to dry of its own accord, it would be chemically free from grease and would require no polishing. It would, moreover, not have to be handled at all. The essential factors of mechanical washing are therefore 1 A detergent treatment that will emulsify all greasy substances and dislodge adherent food debris. Soap and suitable alkalis are used in this treatment. 2 A rinse treatment using clean hot water that will remove all detergent water from the china. 3 A drying treatment that is spontaneous and is carried out without touching the articles. Thus the production of washed articles entails a machine washer supplied with hot, softened water and suitable detergents controls of rate of water supply, temperature, injection of detergent and rate of movement of china through the machine are of course all automatic. Treatment is generally in four stagesfirst a detergent treatment by high pressure jets, then a first and a second rinse treatment again by pressure jets, and finally a last rinse treatment provided by the incoming clean, hot, softened water taken directly from supply. The clean china is now so hot that within a few seconds of its emergence from the machine it is dry. It is then ready for use. It is only within the last century that gastronomy has been popularised, for the bulk of the population is now catered for with more care than ever before. The presentation of meals has advanced enormously, and the palatability of food has been studied with far more concern than ever before. Palatability, the controlling factor in eating, is a complicated attribute, and includes all those factors which can be considered as appealing to the senses. Sensationproducing qualiites are odour, flavour, texture, temperature and appearance, appearance including form, design, size and colour. Palatability is no sure guide to food selection Eat what you like and you need have no further concern about your food modern scientific thought has demonstrated the fallacy of such a statement nevertheless there are more factors of importance than the completeness of a food. To be informed that a mass of food contained all the necessary factors for proper nutrition has no effect on the gastric secretions, but the odour of a frying steak may make the mouth water a badly baked meat pic, no matter how nutritious, lacks the appeal of one with the colour properly developed. This catering for masses of people has raised a number of important questions which the chemist has answered in many cases. As in the case of chainstores, where the public expects to get the same goods at the same price, be they purchasing in Manchester or Sidmouth, so in the case of chainrestaurants the public demand the same standard of goods wherever they may happen to be eating. The consequence of this is that the cooking of a potato, the roasting of a joint, the frying of a fillet of fish, the production of a poached egg on toast, have to be standardised, and the chemist has collaborated with the engineer to produce the plant and machinery which will ensure, within reasonable limits, that the public be satisfied in so far as this consideration is concerned. Only a scientist can answer such questions as for how many hours and under what conditions may a tin of sardines be kept after opening What is the life of a meat pic in summer and what in winter How long can Russian salad prepared under standard conditions be kept What are the best conditions for the preparation and keeping hot of boiled cabbage Incidentally the scientist has been forced to give attention to many problems outside the realm proper of food for example, the standardisation of the crockery and glasses to reduce breakage to a minimum, the question of the colours to be used for the plates and cups and saucers, so that fading by the chemical treatment or by mechanical abrasion in washing or in general use be brought to a minimum. The solution of problems of the service of food in restaurants is not perhaps a spectacular field of work for the scientist, but, in view of the millions of meals served daily in England, its importance can hardly be overestimated. Such are some of the impacts of Science on Food. The sketch is naturally incomplete and many aspects have not been mentioned at all. The application of new scientific knowledge to food problems is continually assuming greater importance in the feeding of the people. This does not imply that science is supplanting the art of the chef it may modify, perhaps simplify, the processes concerned with the preparation of food, but its main function is to interpret the principles on which the art is founded, and to adapt the accumulated knowledge to modern conditions.
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