}

Smoked sweets

2006/05/01 Kortabitarte Egiguren, Irati - Elhuyar Zientzia Iturria: Elhuyar aldizkaria

The smoking of food is an ancestral technique, almost as old as man, used since the Stone Age. However, the knowledge of the components of smoke and the scientific basis of the smoking process is even more recent and there are still some aspects to be investigated.
Smoked sweets
01/05/2006 | Kortabitarte Egiguren, Irati | Elhuyar Zientzia Komunikazioa

Currently, smoking of food can be done through so-called fumes or liquid fumes. The latter are obtained from the condensation of smoke and are investigating in detail their composition in the Department of Food Technology of the Faculty of Pharmacy of the UPV.

(Photo: UPV)
To this end, commercial fumes were investigated, in addition to producing in the laboratory liquid fumes from different types of wood. For this, logically, they first had to smoke and measured the influence of several parameters that control this process in the composition of the obtained liquid fumes. The level of safety of polycyclic aromatic hydrocarbons was also measured. Experts believe they are harmful to health.

The researchers then began to analyze how smoking affects food. For this purpose, various foods - cheese, fish and meat - were smoked with running smoke and liquid smoke vapor. The traditional smoking technique consists in accumulating the smoke produced by burning the wood in the food. Thus, the components of the smoke accumulate randomly in the food. As for smoked smoke, there are various forms, such as when using liquid fumes, the food is immersed in liquids.

One of the objectives of the research is to check whether smoking in liquid smoke vapors equally affects food and whether it uses conventional smoking techniques.

Effects of smoke

Smoked salmon is for many a sweet dish.
Somerfield Group

Smoking changes the color, smell, taste, and texture of food. All these changes are due to the accumulation of smoke components in food. Carbonyl compounds, for example, give the food a sweet taste and aroma and phenolic a smoke or spicy flavor.

New compounds are also generated. In fact, several smoke and food compounds react to each other. Consequently, the organoleptic properties of food are transformed and made more consumer friendly. A chain of reactions occurs between carbonyl compounds and amines, transforming the texture and color of foods.

It also extends the shelf life of the food. This is because smoke is antioxidant and has antimicrobotic properties that delay the oxidation of food and, therefore, reinvention, avoiding the growth of microorganisms. In this way, in addition to improving the sensory properties of food, its conservation is extended. Rancid is a consequence of oxidation. That is, when the food oxidizes, it ages.

However, the smoking process must be carried out properly. Otherwise, food may incorporate toxic components in smoke such as polycyclic aromatic hydrocarbons.

All these aspects are being investigated in the Department of Food Technology of the Faculty of Pharmacy of the UPV.

Liquid smoke vapor

All these changes also occur by smoking food in liquid fumes. In addition, according to the results obtained by the researchers, smoking in liquid smoke vapors offers a wider option and has advantages over conventional smoking.

The basis of this technique is the design of perfume. And, depending on the type of aroma, the dish is added the qualities you like and, in some way, the dish you like is designed. It also lengthens the shelf life of the food, makes its aging more difficult and prevents the growth of microorganisms.

Another important aspect of this method is that it allows to control the amount of toxic components that can accumulate in the food and know them before smoking occurs. Therefore, the safety level of smoked foods in liquid fumes is generally very high.

Project overview
The influence of smoke vapor and conventional smoking on certain food properties, such as smell, taste, texture, shelf life, and safety, has been studied.
Director
Mª Dolores Guillén Lorén.
Working team
T.M. Guillén, G. Palencia, I. Cardboard, E. Goicoechea, N. Cosmes, A. Ruiz, N. Cape and B. Abascal.
Department
Pharmacy, Food, Technology and Animal Production.
Faculty
Faculty of Pharmacy.
Financing
Ministry of Science and Technology, UPV.
On the left, Gemma Palencia, Ixaskun Carton, Mª Dolores Guillén, Encarnación Goicoechea, Nerea Cosmes, Ainhoa Ruiz, Nerea Cabo and Begoña Abascal.
I. Kortabitarte
Kortabitarte Egiguren, Irati
Services
220
2006
Services
043
Universities; Dietetics
Dissemination of knowledge
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