Tutorial de Low-tech Lab | Catégories : Habitat, Alimentation
Kitchen Food Storage Enabling Proper Environments for Different Food Types
Kitchen Food Storage Enabling Proper Environments for Different Food Types
garde, manger, conservation, gaspillage, alimentaire
A Quick Survey of the Situation of Food Waste
In the world, 1/3 of the total of food production is thrown away.
In France, this constitutes 10 billion kilograms (22 billion pounds) of wasted food each year, the carbon impact of which is equivalent to 5 times the country's domestic air traffic per year.
The analysis of food waste data shows that 33% of this is made on the last link of the chain: the consumer.
The losses amount to a global cost of 160€ ($189 USD) /year per person.
Quantitatively, fruits and vegetables constitute the most substantial losses (50%).
However, even though they represent just 6% of all food waste, it is animal products (meat, fish, dairy) that represent the most significant financial loss.
Causes of Food Waste
In order to design and implement the proper solutions to reduce waste, it is useful to take a look at an analysis of its causes:
•Sociological causes: Our pace of living; family structures; the ways of organizing our days and our meals shifting over time. We are more hurried and less attentive, which brings about food waste.
•Cultural causes: Our perceptions of food, our aesthetic criteria, and our styles of feeding ourselves lead to a dismissal of products that are nonetheless consumable.
•Poor knowledge of keeping or conserving foods: conserving is not synonymous with making something cold--a refrigerator is not made to accommodate all types of food. In addition, confusions arise between terms such as "Use by," "Best-Before," and "Expired by."
•Organizational problems: We lack organization before doing our grocery shopping, wherein we question our needs and plan to buy the appropriate quantities. Refrigerators and cabinets are equally sources of numerous losses due to storage space that encourages stacking new food in front of older food.
It's important to note that a good number of these causes can be remedied by suitable practices that anyone can put into place. Some technical solutions can come to our aid, mainly by:
•Creating the right environments for conserving food according to food type
•Promoting proper visibility of produce
•Making them more easily accessible
The first step in using a food-storage system such as this is for the user to question the ways in which they buy and consume.
In fact, the food storage modules that we're going to propose below are mainly designed for raw and fresh foods. For example, it would be complicated for the user feeding themselves with ready-made meals to benefit from the technical suggestions provided.
The "Zero Waste" approach, originating from Franco-American Béa Johnson, is an excellent method to put into practice. It contributes at the same time to the reduction, in a significant way, of global production of waste material (packaging, plastic, etc).
Zero Waste France is a very good network for additional information on helping consumers take these actions.
Since we mainly need to work on waste consisting of fruit, vegetables, and animals products, the focus is on short-term conservation.
Food conservation does not mean keeping cold but rather conserving the nutritional quality and taste of the foods.
For this reason, several storage environments are worth adopting for a built food storage solution.
Generally, among all short-term storage environments, the most basic technology of most value, in our experience, is the storage rack with slide-out trays.
It's a technical solution that can be easily integrated into a kitchen, permits direct visibility of all contents, and facilitates easy access to all the foods contained within, as opposed to a cupboard or a refrigerator.
The principal use of the sliding trays or drawers is to allow for good air circulation, a very important factor for keeping fruits and vegetables fresh. It can be made using wooden battens (between 2 and 3 cm wide each) or using wire netting or screen.
For the assembly of the food storage rack, an air gap of 3-4cm is to be integrated to back side in order for "exhaust" air and humidity to flow and not stagnate at the risk of spoiling the foods more quickly.
Let's navigate this category by way of example: Apricot, eggplant, avocado, banana, citrus, tomatoes, but equally eggs or butter in a butter dish if it's not too hot.
In a kitchen for 2 people, we propose 2-3 drawers, measuring 15cm height by 40-50cm depth by 50cm width.
It is designed so that the front and back of the drawer allow for air circulation.
This food keeping environment is useful notably for potatoes, onions, garlic, squashes, etc. The dark atmosphere prevents the germination of tubers and roots as well as the ripening of certain fruits.
In a kitchen for 2 people, we propose 2 drawer-racks lined with a fabric such as linen or jute, both to create darkness and to ensure ventilation.
About 25cm height, 40-50cm depth, and 50cm width. It is necessary to make them a bit taller than the preceding environment in order to keep carrots vertically in a box of lightly humid sand, which will be arranged in one of the drawers.
For an existing living space:
This environment is the most difficult to create in an existing space; however, it is very useful as it can allow you to keep the refrigerator off for a part of the year.
For existing spaces, it is possible to draw inspiration from the refrigerator of the desert, or the "zeer pot."
It is essentially made of one pot nested within a second. Sand is added between the two. The foods are placed in the central pot and the sand is regularly humidified. Due to the evapo-transpiration effect (evaporation from both mineral and plant sources), the interior temperature can drop between 5-10°C (41-50°F) lower than the room temperature.
For a new living space:
In the case of a new living space, it's possible to imagine in the manner of the old Parisian garde-mangers, the boxes opening to the outside--to the north--via a window dedicated to this usage.
On va retrouver dans cette ambiance : Artichaut, concombre, haricot, panais, beurre à la mi-saison, etc
Pour le dimensionnement, un volume intérieur de 40L divisé en 2 est convenable. (par exemple 40cm de haut, 40 cm de large et 30 cm de profondeur)
Cette ambiance est réalisée grâce au réfrigérateur. L’idée est de travailler à réduire la taille de celui-ci pour ne garder à l’intérieur que reste de repas, crèmerie, viande, poisson et boisson fraîche.
En autre effet positif, la diminution de la taille du réfrigérateur agit directement sur la réduction de la consommation électrique.
Pour 2 personnes, nous proposons l’utilisation d’un réfrigérateur 40L (type réfrigérateur de bar). Selon le budget accordé, il est possible de trouver des réfrigérateurs tiroirs qui permettent une vue directe sur tout le contenant cependant ils coutent sensiblement plus chers.
Attention cependant à choisir un réfrigérateur où le stockage vertical de bouteilles standard est possible pour plus de fonctionnalité.
On évitera de placer le réfrigérateur à coté du four (ce qui est le cas dans de nombreuses cuisines) pour plus d’efficacité.
Le dégagement de chaleur par l’arrière du réfrigérateur dans la lame d’air du meuble favorisera la circulation de l’air et de l’humidité de l’ensemble du meuble de conservation
En plus des ambiances, un second paramètre entre en jeu dans laconservation des fruits et légumes : c’est leur propriété à émettre ou non de l’éthylène, un gaz qui favorise le murissement et à y être sensible ou non selon leur type.
Les fruits et légumes qui produisent de l’éthylène et qui continuent de murir après récolte sont dits « climactériques » tandis que d’autres peuvent y être très sensibles et pourrirent plus rapidement au contact de l’éthylène.
Une règle simple est d’éviter de mélanger les aliments qui dégagent de l’éthylène de ceux qui y sont seulement sensible, c’est pourquoi il faut au moins 2 tiroirs par ambiance et qu’ils soient assez grands et aérés pour que l’éthylène s’évacue correctement.
Low-tech Lab / ambiance par aliment | Ambiance de conservation courte | Aspect climactérique | ||||
Aliments | Frais, humide et sombre | Sec, aéré, à la lumière | Sec, aéré, dans le noir | Autres ? | Producteur d'éthylène | Sensible à l'éthylène |
Abricot | x | x | x | |||
Ail | x | |||||
Ananas | x | |||||
Artichaut | x | |||||
Asperge | x | Bac réfrigérateur | ||||
Aubergine | x | x | ||||
Avocat | x | x | x | |||
Banane | x | x | x | |||
Bette | x | |||||
Betterave rouge | x | |||||
Brocolis | x | Bac réfrigérateur | x | |||
Carotte | x | x | ||||
Céleri | x | |||||
Cerise | x | x | ||||
Champignon | x | |||||
Chou-fleur | x | Bac réfrigérateur | x | |||
Chou-pommé | x | |||||
Citron | x | |||||
Citrouille | x | |||||
Clémentine | x | |||||
Concombre | x | x | x | |||
Coriandre, cumin,…. | x | |||||
Courge | x | |||||
Courgette | x | x | ||||
Echalote | x | |||||
Endive | x | Bac réfrigérateur | x | |||
Fraise | x | |||||
Graines alimentaires (haricots, lentilles, fèves, | x | |||||
Graines aromatiques | x | |||||
Haricot vert | x | Bac réfrigérateur | x | |||
Kiwi | x | x | ||||
Mangue | x | |||||
Melon | x | x | x | |||
Mûre | x | |||||
Navet | x | |||||
Oignon | x | |||||
Orange | x | |||||
Panais | x | |||||
Pastèque | x | |||||
Patate douce | x | |||||
Pêche | x | x | x | x | ||
Persil, ciboulette, menthe, coriandre frais, aneth, | Dans un verre d’eau | |||||
Poire | x | x | x | x | ||
Poireau | x | |||||
Poivron | x | x | x | |||
Pomelo | x | |||||
Pomme | x | x | x | |||
Pomme de terre | x | |||||
Prune | x | x | x | x | ||
Radis | x | |||||
Raisin | x | |||||
Roquette | x | |||||
Salade | x | x | ||||
Tomate | x | x | x | |||
Reste alimentaire | Réfrigérateur | |||||
Cremerie | Réfrigérateur | |||||
Viande et poisson | Réfrigérateur |
Redigé par Pierre-Alain Lévêque pour le Low-tech Lab, Aout 2019
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