If you replace honey with sugar in the recipe, it will actually be sweet too, but the product will have a new taste and new properties.
So each molasses, or syrup, or maltose changes the product in its own way. They are differently sweet and have their own flavor, even without considering the different technological properties.
And if you don't bother, then you can replace one type of syrup with another, because they are all aimed at increasing the hygroscopicity and anti-crystallization in the product, but to varying degrees and with different tastes and sweetness, well, there is + or -.
Therefore, it is better or worse to look at the recipe and try it in practice.
And if you really want to understand the features, then
search in Google on "DE and reducing sugars" There are many interesting things.
And if it's short and very superficial,
then each syrup of glucose, maltose is characterized by DE - dextrose equivalent, reflecting the content of reducing sugars that set sweetness level and special hygroscopic properties, that is, by the ability to delay staling and drying of the product.
In addition, there is another important indicator - the viscosity of the solution, this is responsible for the strength of anticrystallization, sugaring
The viscosity is determined by the ratio of reducing substances and dextrins and is determined by the taste of molasses, as well as its processing properties. Thanks to reducing substances, products acquire different hygroscopicity and sweet taste... At the expense of dextrins, molasses has viscous structure and has anti-crystallization properties, due to which molasses counteracts the sugar confectionery and stale pastry.
DE of pure sugar 100%
SYRUP GLUCOSE - types of molasses
Caramelized low-sugar syrup - 30-34% reducing sugars or 30 DE glucose
Caramel high-sugar syrup - 38-44% of reducing sugars or 38 DE - 43 glucose
Highly sugar glucose syrup - 44-60% of reducing sugars, or 60 DE - 63 glucose
Maltose syrup characterized by a light brown color and slightly malty smell... It contains reducing substances (in terms of maltose) at least 65% on DM.
Gives certain types of rye bread exactly its own aroma and taste, as for wheat, it is necessary to look at the recipe for the use - too noticeable. Leaves strong aftertaste. Smoother than glucose, this must be taken into account when replacing.
Plain caramel syrup more neutral to taste and smell. Universal
And a bunch of still small syrups and other modern sugar semi-finished products.
And each of them, in its own way, brings special properties to the product.
For caramel, it is important to preserve plasticity - there you need molasses for caramel, for rye bread to give taste and slow down staling - there, according to the recipe, molasses with a certain taste are recommended.
Therefore, if it is correct and meticulous to replace one type of syrup with another, then it should be selected with close equivalents of DE and viscosity.
I do not know if it is possible to give a link to an external resource here (). Therefore, from there I will quote interesting information.
SUGAR (common SUGAR)
Sweetness coefficient - 100 (or one)
Properties:
- Provides a hard texture;
- extends the shelf life;
- crystallize with oversaturation;
- reduces the indicator of water activity;
- does not dissolve in alcohol;
- provides flavor and color when caramelized.
SYRUP GLUCOSE
Sweetness coefficient:
glucose 60 DE - 63
glucose 38 DE - 43
glucose 30 DE - 30
(DE is the dextrose equivalent)
Properties:
- delays and reduces crystallization;
- reduces the indicator of water activity;
- provides aroma and color when heated;
- absorbs moisture (especially with a high dextrose equivalent).
Low dextrose equivalent glucose increases viscosity and is used as a thickener and fixer, for example in the manufacture of low fat ganache.
Glucose with a low dextrose equivalent (less than 40) does not contain a large amount of reducing sugar, but includes polysaccharides, which provide low hygroscopicity and prevent changes at low temperatures. Due to these properties, it is recommended for the production of dragees, caramel, nougat, etc.
Glucose with a high dextrose equivalent (more than 45) is mainly used in products that contain a lot of water, such as pastilles, since in this case the water-retaining properties of the reducing sugars prevent drying out.
DEXTROSE (GRAPE SUGAR)
Sweetness coefficient - 30
- ideal for reducing sweetness;
- poorly soluble;
- prevents crystallization in creams;
- reduces the average crystal size of added sugars and provides some flexibility that can be useful in preforms, for example, fondant sugar (sugar for icing);
- creates a cool effect (only monohydrate);
- reduces the indicator of water activity;
- has hygroscopicity.
INVERTED SUGAR
Sweetness coefficient - 125
- contains 50% dextrose and 50% pure fructose;
- prevents crystallization in creams;
- reduces the activity of water, if not heated to 70 ° C;
- hygroscopic. Desirable ingredient in products with a high water content that must remain soft;
- excess invert sugar can lead to viscosity and syrup production. A good result is usually achieved with a content of up to 23%;
- gives color and aroma when heated.
INVERTASE
(has different trade names)
This enzyme breaks down sucrose into its two components: glucose and fructose. It is mainly used to make products soft. The breakdown process usually occurs within seven days, but alcohol can slow it down. The optimal ratio is from 2 to 5 g per 1000 g. It is recommended to use the enzyme at a temperature of 60 to 70 ° C, while the acidity index (pH) should be in the range from 3.8 to 5.2, since at temperatures above 70 ° C and higher acidity levels, the action of invertase stops. This ingredient reduces stringiness. Also, in the process of inversion, there is a decrease in water activity, which contributes to conservation. Store the substance in a cool, dark place.
HONEY
Differences in the composition of honey depend on the type of plants in the habitats of bees, but on average it contains approximately:
- 18% water;
- 38% fructose - inverted sugar;
- 31% grape sugar (glucose) - inverted sugar;
- 10% - complex sugars, minerals, organic acids and vitamins;
- 3% - enzymes (or enzymes), hormones, gluconic acid, dyes and fragrances.
Honey gives the product its characteristic taste. The microorganisms in honey make it susceptible to fermentation. From a technical point of view, the comments regarding inverted sugar apply to honey.
FRUITOSE (FRUIT SUGAR OR LEVULOSE)
Sweetness coefficient - 130
- prevents crystallization;
- dissolves well;
- reduces water activity;
- enhances fruit flavor;
- has hygroscopicity;
- sensitive to temperature (caramelized).
LACTOSE
Sweetness factor - 27
- crystallizes well;
- reduces water activity;
- fixes aromas.
SORBITOL (E420)
Sweetness factor - 50
It occurs naturally in many types of ripe fruits: apples, pears, grapes, some berries, as well as in algae and spinach. It comes in two forms: powder and concentrate (70% substance). Usually, recipes use no more than 5 - 10%. If more than 3% is used, an equal amount of molasses should be removed from the recipe.
- prevents crystallization;
- possesses preserving and stabilizing properties;
- reduces water activity;
- hygroscopic;
- stabilizes moisture, prevents drying;
- creates a cooling effect;
- withstands high temperatures. At temperatures in the range of 150 - 170 & # 186; C it turns brown;
- resistant to acids, enzymes and heat up to 140 & # 186; C.
Other sweeteners
NATURAL
FRUITS
Many fruits contain sugar, more often fructose. Processed can be included in recipes. For example, in fruit jelly, fruit paste and even ganache. In this case, some surface aromas disappear during the production process.
MAPLE SYRUP
Produced from Canadian maple sap. Contains about 34% water and 66% sugar.
PALM SUGAR
Dark sticky sugar with many flavors. Derived from the juice of various types of sugar palm, each of which gives sugar its own flavor.
CARBON POWDER
Sweetness coefficient - 0.50 - 0.60
A product made from roasted and powdered carob pods with a taste and smell reminiscent of cocoa.
CANE SUGAR (YELLOW SUGAR)
After grinding the mixture of cane and palm oil, sap is released, which solidifies in the molds. Cane sugar has a characteristic, spicy flavor and is often used in Indonesian cuisine.
DATE SYRUP
Made from sugar-rich dates. It is a dark syrup with a neutral flavor.
DATE SUGAR
Unrefined or semi-refined sugar from the juice of date palms. Has a characteristic strong caramel flavor.
ASH SUGAR
Produced from the juice of sugar ash - a tree with a height of 6 to 8 meters, which grows mainly in Sicily and southern Europe. The sap flows out of a crack in the trunk and branches.
AGAVA SYRUP
Agave syrup, which grows naturally in Mexico, is obtained from the juice of the heart of this plant. The sweetness is higher than that of sucrose. Contains 23 - 25% water.
STEVIA
Produced from the leaves of stevia, a perennial shrub of the Aster family. According to various sources, it is 100 to 300 times sweeter than sugar.
SUGAR SUBSTITUTES
The application of these components must be supported by the necessary knowledge. It is recommended to use them in minimal quantities.
INULIN
100% organic matter that is extracted from chicory root due to its ability to dissolve in warm water. Although inulin is sugar, it does not taste sweet. This creamy white mass is an ideal fat substitute and filler. Inulin is low in calories and fibrous. It is mainly used with a sweetener and / or sweetener.
POLYDEXTROSE (E1201)
Fat substitute and filler.
SUGAR ALCOHOLS
MANNIT
A natural sweetener found in all types of vegetables. Has a light sweet taste, no aftertaste.Daily consumption should not exceed 15 g, since it has a laxative effect.
XYLIT
A natural sweetener found in all types of vegetables and fruits. As sweet as sucrose without the aftertaste. Daily consumption should not exceed 20 g, as it has a laxative effect.
ISOMALT
The main sweetener. It has a strong sweetness (0.45). The only sugar substitute directly derived from sugar beets. Isomalt has some special characteristics: it is acceptable for diabetics and is non-hygroscopic, in addition, it prolongs the shelf life for some formulations. Not subject to Maillard reaction. Since the sweetness of isomalt is half that of sucrose, it is mainly used in combination with strong sweeteners such as ACESULFAM K.
MALTIT (maltodextrin, molasses)
The main sweetener. Produced by hydrogenation (hydrolysis) of maltose (starch). The sweetness is slightly lower than that of sucrose (0.9). Temperature stable.
Lactitis
Artificial sweetener. Made from milk sugar (lactose). Sweetness - 0.4, has a sugar taste, no aftertaste.
ARTIFICIAL SWEETENERS
Some artificial sweeteners are not sweet enough so additional sweeteners need to be added. However, it is important to consider that large doses of sugar alcohols act as a laxative and can lead to health complications.
ACESULFAM K
Sweetness coefficient - 200
A major human-made sweetener. It is heat-resistant up to 225 ° C and is therefore primarily suitable for cooking and baking.
CYCLAMATE
Sweetness coefficient - 30
Artificial sweetener.
SACCHARIN
Sweetness coefficient - 300 - 500
Artificial sweetener.
ASPARTAM
Sweetness coefficient - 200
Artificial sweetener. Its chemical composition can be harmful to humans, therefore products containing aspartame should be labeled with a phenylanine warning.
