The present utility model “Extruder to nixtamalize maize fractions” aims to provide and extruder to nixtamalize maize fractions previously conditioned with water and food grade lime, eliminating the production of nejayote in the production of nixtamalized maize flour, as well as the reduction of clogging of the extruded material. In addition to the aforementioned, it's easy to assemble for cleaning.

A flavour composition comprising a compound according to the formula (I) edible salts thereof, wherein R.sub.1 is an alkyl residue containing 6 to 20 carbon atoms, or an alkene residue containing from 9 to 25 carbon atoms with 1 to 6 double bonds, R.sub.1 together with the carbonyl group to which it is attached is a residue of a carboxylic acid, and m is 0 or 1. ##STR00001##

A system (100) for processing of paddy comprises a set of processing stations, a set of field instruments (101), a local control unit (102), a cloud server (103) and remote control devices (104). Further the set of field instruments (101) are configured to collect data from set of processing stations monitor a processing station from the set of processing stations. Further the local control unit (102) comprises a processor coupled to a memory. Further, the processor is configured to execute a set of instructions for receiving the data from the set of field instruments (101). Further, the processor compares the data with pre-determined thresholds and generates set of commands corresponding to target field instrument. Based the comparison, the processor identifies the target processing station, corresponding to target field instrument, and transmitting the set of commands to the target processing station, thereby controlling the set of processing stations for paddy processing.

The present invention relates to a sushi composition, and more specifically, to a sushi composition which includes a sushi layer, a sauce layer formed on an upper surface of the sushi layer, and a powder layer formed on a lower surface of the sushi layer, wherein the sushi layer consists of a filling made of a protein component and a sushi mixture covering the filling. The sushi composition has excellent taste and texture, contains abundant nutrients, and exhibits excellent preservation by applying various ingredients in the form of a sauce or powder.

The present invention relates to a sushi composition, and more specifically, to a sushi composition which includes a sushi layer, a sauce layer formed on an upper surface of the sushi layer, and a powder layer formed on a lower surface of the sushi layer, wherein the sushi layer consists of a filling made of a protein component and a sushi mixture covering the filling. The sushi composition has excellent taste and texture, contains abundant nutrients, and exhibits excellent preservation by applying various ingredients in the form of a sauce or powder.

A cooked rice producing method is configured to include carrying out rice boiling after adding a liquid seasoning which has a solid content of saccharides of from 0 to 32% by mass, a degree of sweet taste of from 30 to 85, and an acetic acid conversion acidity of from 2.5 to 5.7. Cooked rice, produced by carrying out rice boiling after adding a liquid seasoning, includes a solid content of saccharides of from 0 to 32% by mass, a degree of sweet taste of from 30 to 85, and an acetic acid conversion acidity of from 2.5 to 5.7. A liquid seasoning includes a solid content of saccharides of from 0 to 32% by mass, a degree of sweet taste of from 30 to 85, and an acetic acid conversion acidity of from 2.5 to 5.7, to be used by being added before rice boiling. A method for suppressing the occurrence of undercooked portion formations in cooked rice, includes carrying out rice boiling after adding a liquid seasoning which comprises a solid content of saccharides of from 0 to 32% by mass, a degree of sweet taste of from 30 to 85, and an acetic acid conversion acidity of from 2.5 to 5.7.

A cooked rice producing method is configured to include carrying out rice boiling after adding a liquid seasoning which has a solid content of saccharides of from 0 to 32% by mass, a degree of sweet taste of from 30 to 85, and an acetic acid conversion acidity of from 2.5 to 5.7. Cooked rice, produced by carrying out rice boiling after adding a liquid seasoning, includes a solid content of saccharides of from 0 to 32% by mass, a degree of sweet taste of from 30 to 85, and an acetic acid conversion acidity of from 2.5 to 5.7. A liquid seasoning includes a solid content of saccharides of from 0 to 32% by mass, a degree of sweet taste of from 30 to 85, and an acetic acid conversion acidity of from 2.5 to 5.7, to be used by being added before rice boiling. A method for suppressing the occurrence of undercooked portion formations in cooked rice, includes carrying out rice boiling after adding a liquid seasoning which comprises a solid content of saccharides of from 0 to 32% by mass, a degree of sweet taste of from 30 to 85, and an acetic acid conversion acidity of from 2.5 to 5.7.

The present disclosure discloses a production method of normal-temperature instant cooked rice and belongs to the technical field of food processing. The method of the present disclosure comprises the main steps of rice washing and soaking, flavor blending, sub-packaging, cooking, sterile vacuum sealing, cooling and crystallization and normal-temperature storage, wherein an aqueous solution containing flavor substances is adopted to perform flavor blending, and a fast cooling mode is adopted to perform cooling and crystallization. The normal-temperature instant cooked rice obtained through the production method provided in the present disclosure can keep the original flavor after being stored for 90 days.

The present invention is in the field of the flavouring of foods. In particular, the present invention is directed to a process for the encapsulation of flavours and/or aromas. The particles are then later incorporated into the end preparation (the food), such as, for example, instant coffee. The focus is in particular firstly to obtain particles with high aroma loading in order to ensure a long-lasting aroma protection during storage, and secondly to control the particle properties in such a way that an optimum miscibility of the particles with foods is made possible. Decisive aspects in this connection are primarily shape, size and particle density. These aspects together are intended to bring about an improved taste experience for the end consumer when consuming the particles.

The present invention is in the field of the flavouring of foods. In particular, the present invention is directed to a process for the encapsulation of flavours and/or aromas. The particles are then later incorporated into the end preparation (the food), such as, for example, instant coffee. The focus is in particular firstly to obtain particles with high aroma loading in order to ensure a long-lasting aroma protection during storage, and secondly to control the particle properties in such a way that an optimum miscibility of the particles with foods is made possible. Decisive aspects in this connection are primarily shape, size and particle density. These aspects together are intended to bring about an improved taste experience for the end consumer when consuming the particles.