Production of anionic surfactant granules by in situ...

Cleaning compositions for solid surfaces – auxiliary compositions – Cleaning compositions or processes of preparing – Heterogeneous arrangement

Reexamination Certificate

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C510S445000, C510S446000, C510S450000, C510S457000

Reexamination Certificate

active

06518233

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a process for the production of anionic detergent particles and detergent compositions containing them. More particularly the present invention relates to a process for the production of detergent particles having a high level of anionic surfactant which involves in situ neutralisation of an acid precursor of the anionic surfactant and drying of the surfactant thereby produced.
BACKGROUND OF THE INVENTION
It is known that detergent particles having high anionic surfactant levels can be prepared by processes in which acid precursors of anionic surfactants are neutralised with a neutralising agent in horizontal thin-film evaporator/drier (WO-A-96/06916, WO-A-96/06917 & WO-A-97/32002; WO-A-98/38278 & WO-A-98/40461) and the mass is granulated and dried. As used herein, the term thin-film evaporator/drier is understood to include flash-driers and scraped-surface driers as described in WO-A-96/06916, WO-A-96/06917 & WO-A-97/32002.
Basically, a thin-film evaporator/drier comprises a cylindrical chamber in which is located a coaxial shaft on which is mounted a plurality of blade-like tools. The pitch of these tools can be set to different angles along the length of the cylindrical chamber, from input end to output end. The clearance between the tips of the blade-like tools and the internal surface of the cylindrical chamber is very small, typically 5 mm or less. The cylindrical chamber comprises at least a mixing region at or towards the input end of the cylindrical chamber, a cooling region at or towards the output end of the cylindrical chamber and a drying region between the mixing and cooling regions. The drying region typically comprises one or more heating zones and the cooling region may comprise one or more cooling zones (although usually only one cooling zone. Each of the heating and cooling zones is defined by a respective jacket around the cylindrical chamber with a respective axial gap between each and through which jackets, a heating or cooling liquid, as appropriate, is pumped during operation of the process. The layering agent is
typically an aluminosilicate or a silica.
A problem associated with processes which involve the neutralisation of anionic surfactant acid precursors (hereinafter referred to as
acid precursors
) is that of incomplete neutralisation. Even relatively small levels free acid in the resulting detergent particles can result in the following:-
(i) softer particles which are more difficult to handle and store;
(ii) the generation of heat during storage as the neutralisation reaction continues;
(iii) the free acid in the detergent particles reacting with other ingredients (e.g. perfumes) in detergent compositions of which the detergent particles are a component; and
(iv) increased uptake of moisture upon storage, due to the hygroscopicity of many acid precursors, resulting in poor powder flow properties both of the detergent particles and of detergent compositions containing the detergent particles.
The problems associated with incomplete neutralisation are especially prevalent when neutralising linear alkyl benzene sulphonic acid (LAS acid) precursors and alkyl sulphuric acid half-esters.
WO-A-97/32002 discloses a
dry-neutralisation
process in which high anionic surfactant-content detergent particles are manufactured by contacting a pumpable acid precursor with a solid neutralising agent, such as for example sodium carbonate, in a thin-film evaporator/drier.
EP-A-555 622 describes the manufacture of detergent particles comprising anionic surfactant in which acid precursors are neutralised in a high shear mixer by a stoichiometric excess of particulate neutralising agent, preferably sodium carbonate. The neutralisation reaction is optimised by using neutralising agent of a narrowly defined particle size range, namely 50% by volume has a particle diameter of less than 5 microns.
EP-A-555 622 does not, however, relate to the production of high anionic surfactant-content detergent particles or to the use of thin-film evaporator/driers. According to the teaching of this reference, the neutralising agent is preferably present in an amount of at least five times that required for stoichiometric neutralisation. In addition, the ratio of liquid ingredients (e.g. acid precursor) to powder ingredients (e.g. neutralising agent) introduced into the high shear mixer is most preferably from 1:2 to 1:3. It is not possible to make high anionic surfactant-content detergent particles using such excesses of neutralising agent and/or liquid to solid ratios. Indeed, the detergent particles of the examples contain merely 23 wt % anionic surfactant.
We have now found that the level of neutralisation in a dry-neutralisation process can be significantly improved when making high anionic surfactant-content detergent particles using a thin-film evaporator/drier by employing a particulate neutralising agent of relatively small particle size in an amount excess to that required for stoichiometric neutralisation and having a D50 average diameter of less than 40 &mgr;m.
SUMMARY OF THE INVENTION
A first aspect of the present invention provides a process for the production of detergent particles comprising feeding an acid precursor of an anionic surfactant and a neutralising agent into a horizontal thin-film evaporator/drier and neutralising, granulating and drying the material in the evaporator/drier, the neutralising agent is being fed in an amount equal to or in excess to that required for stoichiometric neutralisation and having a D50 mean particle size of less than 40 &mgr;m, preferably less than 30 &mgr;m, more preferably less than 20 &mgr;m, especially less than 10 &mgr;m.
A second aspect of the present invention also provides detergent particles obtainable by the process of the first aspect of the invention.
DETAILED DESCRIPTION OF THE INVENTION
Simultaneous Neutralisation, Drying and Granulation Process in a Thin-film Evaporator/Drier
The process is carried out in a horizontal thin-film evaporator/drier (hereinafter referred to as an
evaporator/drier
). A commercial scale machine typically comprises at least 300, preferably at least 500, more preferably at least 750, especially at least 1000 blade-like tools. The clearance between the blades and the internal wall of the chamber is suitably less than 20 mm, e.g. 15 mm or less, or even 10 mm or less. The blade tip speed in operation is suitably ≧15 ms
−1
, preferably ≧20 ms
−1
. The ratio of exposed blade length to shaft radius is preferably less than 1, e.g. less than 0.5. Preferably, the large number of blades and the pitch of the blades also means that at least 40%, for example at least 45%, and even substantially the whole chamber wall (that part along the length of the shaft which carries the blades) is scraped during operation.
Initial mixing of the components occurs in the mixing region and the neutralisation reaction is begun. Mixing and neutralisation then continue throughout the process, through the drying and cooling regions.
The anionic surfactant acid precursor (hereinafter referred to as the
acid precursor
) and neutralising agent are normally fed into the mixing region of the evaporator/drier. However, all or part of either component can be dosed into the drying region. Neutralisation occurs to form a surfactant paste, which is then converted into detergent particles by the drying and mechanical action of the evaporator/drier. The evaporator/drier exerts its drying action by forming a thin layer of material on a heated surface within the drying region.
The acid precursor is suitably fed into the evaporator/drier in a liquid phase. As acid precursors can be unstable, the neutralisation preferably occurs sufficiently rapidly and substantially completely such that thermal decomposition of the acid due to elevated temperature is minimised and desirably avoided.
The neutralising agent is introduced into the evaporator/drier as a solid particulate material. Preferably, the amount of neutralising agent with respect to the acid precursor ad

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