Patent Description:
The present invention relates to a method for modifying the rheology of a high viscous compound. In particular, the invention relates to a method for reducing viscosity of a polyethoxylated alcohol sulfate by adding diluents. The present invention also relates to compositions comprising such diluents and a polyethoxylated alcohol sulfate.

Sodium laureth ether sulfate (SLES), also known as sodium lauryl ether sulfate, is an anionic detergent and surfactant widely used in many laundry detergent products and personal care products. Its chemical formula is CH<NUM>(CH<NUM>)<NUM>(OCH<NUM>CH<NUM>)nOSO<NUM>Na, wherein n may be <NUM> or <NUM>. Commercial SLES typically has three ethoxyl groups (i.e., n = <NUM>) in the chemical formula.

SLES belongs to the genus of polyethoxylated alcohol sulfates, i.e., alkyl ether sulfates (AES) or alkyl polyethoxylate sulfates, having the following Formula (I):.

wherein R' is a C8-C20 alkyl group, n is from <NUM> to <NUM>, and M' is a salt-forming cation, preferably, R' is C10-C18 alkyl, n is from <NUM> to <NUM>, and M' is sodium, potassium, ammonium, alkylammonium, or alkanolammonium.

SLES is an inexpensive and effective at cleaning and emulsification. However, neat (i.e., <NUM>%) SLES is difficult to use because it has a high viscosity. Moreover, SLES is a non-Newtonian fluid, meaning that its viscosity is variable based on applied stress or force, which makes it even more difficult to handle SLES.

As such, commercial SLES is supplied as a blend of SLES (<NUM>%), ethanol (<NUM>%), water (<NUM>%), alcohol ethoxylate 3EO (<NUM>%), and sodium sulfite (<NUM>%). The addition of ethanol and other solvents into SLES reduces the viscosity of the raw material and enables it to be easily flowable and processable at manufacturing plants.

However, ethanol has a low flash point (i.e., <NUM>) below average room temperature. According to the industry standards, for volatile solvents (e.g., ethanol), if the flash point is below a certain value (e.g., average room temperature), the raw material has to be shipped as a hazardous material and it also needs to be stored in a "bomb-proof" room just in case it flashes and causes an explosion. The inclusion of <NUM> parts ethanol makes the resulting SLES/ethanol blend a potential fire hazard during shipping, handling and batching with the SLES/ethanol blend, in particular on an industrial scale.

There is a need for an improved supply of SLES which not only has an improved rheology, but has a better fire safety profile. Preferably, the SLES supply contains less low flash point solvent, compared to the current commercial SLES raw material. More preferably, the SLES supply can be easily prepared either in situ (e.g., during a process of preparing laundry detergent or personal care products) or in advance (e.g., by preparing a stock supply of SLES).

<CIT> discloses cleaning compositions comprising liquid salt and surfactants. <CIT> teaches encapsulated laundry cleaning compositions comprising surfactants, ionic liquid and water as well as additional solvents.

The inventors have unexpectedly found that an ionic liquid and alcohol blend, when added into a polyethoxylated alcohol sulfate, such as sodium laureth ether sulfate (SLES), significantly reduces the viscosity of the polyethoxylated alcohol sulfate to a manageable level and enables it to be handled easily. Experimental data generated by the inventors show that this is because a synergistic effect on the viscosity reduction has occurred when an ionic liquid and an alcohol are both employed to modify the rheology of a polyethoxylated alcohol sulfate. Advantageously, the invention allows the reduction of the amount of a flammable alcohol needed to handle a polyethoxylated alcohol sulfate properly at manufacturing plants, which in turn, enables a safer material handling and final product batching.

In one aspect, the present invention provides a polyethoxylated alcohol sulfate composition which has an improved rheology. The term "an improved rheology" used herein refers to a reduced viscosity level of the polyethoxylated alcohol sulfate composition, as compared to the viscosity level of polyethoxylated alcohol sulfate. An improved rheology allows the polyethoxylated alcohol sulfate composition to be reasonably flowable and processable during manufacturing processes.

The polyethoxylated alcohol sulfate composition consists essentially of a polyethoxylated alcohol sulfate having Formula (I), water, an alcohol, and an ionic liquid.

According to some embodiments, the polyethoxylated alcohol sulfate is SLES in an amount ranging from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, or about <NUM>%,, by weight of the polyethoxylated alcohol sulfate composition. The polyethoxylated alcohol sulfate composition can thus be called SLES composition or SLES blend.

In some embodiments, water is in an amount ranging from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, or about <NUM>%, by weight of the polyethoxylated alcohol sulfate composition.

According to some embodiments of SLES compositions, SLES may be provided initially as a premix of SLES and water, which can be called SLES premix. The SLES premix consists of SLES and water in a ratio of <NUM>:<NUM>.

It has been discovered that the addition of an ionic liquid alone to an SLES premix does not cause too much change of the rheology of SLES, and that the addition of a small amount of an alcohol alone to a SLES premix reduces the viscosity of SLES to some extent. However, when a blend of the ionic liquid and the alcohol (in small amount) is added to an SLES premix, the viscosity of SLES is reduced significantly, much greater than the sum of the viscosity reductions caused by the alcohol alone and by the ionic liquid alone.

The synergistic effect allows the use of less alcohol in the SLES composition to reduce viscosity of the SLES composition to a desired level. According to some embodiments, the alcohol is present in an amount ranging from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, or from about <NUM>% to about <NUM>%, by weight of the SLES composition. According to some embodiments, the alcohol amount is not more than <NUM>%, more preferably, not more than <NUM>%, by weight of the SLES composition.

The alcohol is selected from a group consisting of ethanol, isopropyl, propanol, butanol, pentanol, hexanol, heptanol, and octanol, and a mixture thereof. Preferably, the alcohol is ethanol.

The ionic liquid is selected from a group consisting of trioctyl methyl amine dioctyl sulfosuccinate, triisooctyl methyl amine C12-C13 methyl branched dodecyl sulfate, tetraoctyl amine dodecyl sulfate, N-dodecyl-N,N-dimethyl-N-hydroxyammonium dodecyleethoxysulfate, N-(dodecylamindopropyl)-N, N-dimethyl-N-carboxymethylammonium, N-(dodecylamindopropyl)-N, N-dimethyl-N-carboxymethylammonium, tris(<NUM>-hydroxyethyl) methyl-ammonium methylsulfate, and a mixture thereof. Preferably, the ionic liquid is tris(<NUM>-hydroxyethyl) methyl-ammonium methylsulfate.

According to a further embodiment, the SLES composition does not include any additional component or solvent other than SLES, water, the alcohol, and the ionic liquid. According to yet another embodiment, the SLES composition may further include one or more components selected from alcohol ethoxylate, and sodium sulfite.

According to one embodiment, the ionic liquid and the alcohol have a weight ratio ranging from about <NUM>:<NUM> to about <NUM>:<NUM>, preferably, from about <NUM>:<NUM> to about <NUM>:<NUM>; and more preferably, about <NUM>:<NUM>.

According to another embodiment, an SLES premix and the ionic liquid have a weight ratio ranging from about <NUM>:<NUM> to about <NUM>:<NUM>; preferably, from about <NUM>:<NUM> to about <NUM>:<NUM>; and more preferably, about <NUM>:<NUM>.

According to a further embodiment, an SLES premix and the alcohol have a weight ratio ranging from about <NUM>:<NUM> to about <NUM>:<NUM>; preferably from about <NUM>:<NUM> to about <NUM>:<NUM>; and more preferably, about <NUM>:<NUM>.

According to yet another embodiment, the weight of an SLES premix and a combined weight of the alcohol and the ionic liquid have a ratio ranging from about <NUM>:<NUM> to about <NUM>:<NUM>; preferably, from about <NUM>:<NUM> to about <NUM>:<NUM>; and more preferably, about <NUM>:<NUM>.

is a graph showing the rheology profiles of various SLES blends, as measured across a shear rate from <NUM> to <NUM><NUM>/s.

The following detailed description of the invention is merely exemplary in nature and is not intended to limit the invention or the application and uses of the invention. Furthermore, there is no intention to be bound by any theory presented in the preceding background of the invention or the following detailed description of the invention.

As used herein, "a," "an," or "the" means one or more unless otherwise specified.

The terms "container", "pouch", "pack", "pac", "unit dose", and "single dose" can be used interchangeably and can have one or two or multi-compartment (i.e., multichamber).

The terms "blend(s)" and "composition(s)" are used interchangeably.

The terms "solvent," "solvents," and "solvent system," mean a liquid or liquids used to dissolve or solvate other chemicals. In some cases, materials can also be dispersed within the solvent (i.e., Titanium Dioxide in water). In other cases, a solvent (i.e., solvent A) can initially exist as a solid and then be dissolved within solvent B, so solvent A can then act as a solvent itself (i.e., PEG <NUM> in water). As used herein, the terms "solvent," "solvents," and "solvent system," do not include neutralization agents, such as, e.g., triethanolamine, monoethanolamine, and sodium hydroxide.

The term in a singular or plural form can mean both singular and plural forms. For example, "textile" or "textiles" may mean both textiles and textile; and "encapsulate" or "encapsulates" may mean both encapsulate and encapsulates.

The term "about" includes the recited number ±<NUM>%. For example, "about <NUM>" means <NUM> to <NUM>.

The phrase "substantially free of" means that a composition contains little no specified ingredient/component, such as less than about <NUM> wt%, <NUM> wt%, or <NUM> wt%, or below the detectable level of the specified ingredient. For example, the phrase "substantially free of a sulphate surfactant" refers to a liquid composition of the present invention that contains little or no sulphate surfactant.

As used herein, the "%" described in the present invention refers to the weight percentage unless otherwise indicated.

Unless stated otherwise, molecular weight of a polymer refers to weight average molecular weight.

The invention will now be described in detail using SLES as an example. However, a person of ordinary skill in the art would understand that, in addition to reduce viscosity of SLES, the present invention is applicable to reduce viscosity of other polyethoxylated alcohol sulfates having the formula, R'-O-(C2H4O)n-SO3M', wherein R' is a C8-C20 alkyl group, n is from <NUM> to <NUM>, and M' is a salt-forming cation, preferably, R' is C10-C18 alkyl, n is from <NUM> to <NUM>, and M' is sodium, potassium, ammonium, alkylammonium, or alkanolammonium.

The present invention provides an SLES composition with an improved rheology profile which allows the SLES composition to be flowable and processable, suitable for manufacturing processes.

The SLES composition in accordance with the present invention consists essentially of SLES, water, an alcohol, and an ionic liquid. SLES is present in an amount ranging from about <NUM>% to about <NUM>% by weight of the SLES composition.

In some embodiments, water is in an amount ranging from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, or about <NUM>%, by weight of the polyethoxylated alcohol sulfate composition.

Alcohols suitable for the present invention include those that have C1 to C6 mono- or di-hydroxyl groups and are in liquid or gel, preferably liquid, form at room temperature. Preferably, the alcohol does not create environmental and/or health hazards. The alcohol is selected from a group consisting of ethanol, isopropyl, propanol, butanol, pentanol, hexanol, heptanol, and octanol, and a mixture thereof. Preferably, the alcohol is selected from a group consisting of ethanol, isopropyl, propanol, butanol, and a mixture thereof. More preferably, the alcohol is ethanol.

The ionic liquid is selected from a group consisting of trioctyl methyl amine dioctyl sulfosuccinate, triisooctyl methyl amine C12-C13 methyl branched dodecyl sulfate, tetraoctyl amine dodecyl sulfate, N-dodecyl-N,N-dimethyl-N-hydroxyammonium dodecyleethoxysulfate, N-(dodecylamindopropyl)-N, N-dimethyl-N-carboxymethylammonium, N-(dodecylamindopropyl)-N, N-dimethyl-N-carboxymethylammonium, tris(<NUM>-hydroxyethyl) methyl-ammonium methylsulfate, and a mixture thereof. Preferably, the ionic liquid is tris(<NUM>-hydroxyethyl) methyl-ammonium methylsulfate, which is available commercially from BASF under the trade name, Efka® IO <NUM>.

The inventors have unexpectedly noticed that, upon adding an ionic liquid to the SLES/alcohol blend, the viscosity level of SLES has been significantly reduced. It is known that a small molecule alcohol with a low boiling point (e.g., ethanol) may be used as a diluent, optionally with other solvents (e.g., water), to modify the rheology profile of SLES. For example, commercial SLES is supplied as a blend of SLES (<NUM> % wt), ethanol (<NUM> % wt), water (<NUM> % wt), alcohol ethoxylate 3EO (<NUM> % wt), and sodium sulfite (<NUM> % wt), in order to provide a flowable and processable form of SLES. The more ethanol added to SLES, the lower of the viscosity level of the resulting SLES composition.

An ionic liquid is composed of an ion active and an ionic liquid-forming counter ion. It is known that an ionic liquid is capable of delivering a fabric treating benefit, a surface treating benefit, and/or an air treating benefit. But it is not known that an ionic liquid could be used for viscosity adjustment in one way to the other. In fact, adding an ionic liquid alone to SLES fails to cause any meaningful changes to the rheology profile of SLES. It is further unknown that an ionic liquid and an alcohol, when both are added to SLES, would cause a synergistic effect on the reduction of viscosity of SLES, meaning that the resulting viscosity reduction is much greater than the sum of the viscosity reductions caused by the addition of an alcohol alone to SLES and by the addition of an ionic liquid alone to SLES.

The present invention advantageously allows the use of less alcohol in the SLES composition while still providing SLES in a form with a desirable viscosity level. Without wishing to be bound by theory, it is believed that the addition of an ionic liquid to an SLES/alcohol blend synergistically enlarges the viscosity reduction effect caused by a small amount of alcohol, leading to an overall greater viscosity reduction.

According to some embodiments, the alcohol is present in an amount ranging from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, or from about <NUM>% to about <NUM>%, by weight of the SLES composition. In some embodiments, the alcohol amount is less than <NUM>%, more preferably, less than <NUM>%, by weight of the SLES composition.

According to some embodiments, the ionic liquid and the alcohol in the ionic liquid/alcohol blend have a weight ratio ranging from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, or from about <NUM>:<NUM> to about <NUM>:<NUM>. According to other embodiments, the ionic liquid and the alcohol have a weight ratio ranging from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, or from about <NUM>:<NUM> to about <NUM>:<NUM>. According to further embodiments, the ionic liquid and the alcohol have a weight ratio of about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, or about <NUM>:<NUM>; preferably, about <NUM>:<NUM>, about <NUM>:<NUM>.

According to some embodiments, an SLES premix and the ionic liquid have a weight ratio ranging from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, about <NUM>:<NUM> to about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, or about <NUM>:<NUM>; preferably, about <NUM>:<NUM>. According to other embodiments, an SLES premix and the ionic liquid have a weight ratio ranging from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, about <NUM>:<NUM>, or about <NUM>:<NUM>; preferably from about <NUM>:<NUM> to about <NUM>:<NUM>; and more preferably, about <NUM>:<NUM>.

According to some embodiments, an SLES premix and the alcohol have a weight ratio ranging from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, about <NUM>:<NUM> to about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>; preferably from about <NUM>:<NUM> to about <NUM>:<NUM>; and more preferably, about <NUM>:<NUM>.

According to further embodiments, the weight of an SLES premix and a combined weight of the alcohol and the ionic liquid have a ratio ranging from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, from about <NUM>:<NUM> to about <NUM>:<NUM>, about <NUM>:<NUM> to about <NUM>:<NUM>. According to yet further embodiments, the weight of an SLES premix and a combined weight of the alcohol and the ionic liquid have a ratio of about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>, about <NUM>:<NUM>; and more preferably, about <NUM>:<NUM>.

According to a further embodiment, the SLES composition does not include any additional component or solvent other than SLES, water, the alcohol, and the ionic liquid. According to yet another embodiment, the SLES composition further includes one or more components selected from a group consisting of alcohol ethoxylate, and sodium sulfite.

A process for preparing an SLES composition with an improved rheology comprises: blending SLES with water, an alcohol and an ionic liquid.

The SLES composition is present in an amount ranging from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, or about <NUM>%, by the total weight of the SLES composition, the alcohol, and the ionic liquid.

In some embodiments, water is in an amount ranging from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, from about <NUM>% to about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, or about <NUM>%, by weight of the SLES composition.

According to some embodiments of SLES compositions, SLES may be provided as a premix of SLES and water, which can be called SLES premix. SLES premix consists of SLES and water in a ratio of <NUM>:<NUM>.

In some embodiments, the SLES composition does not include any additional component or solvent other than SLES, water, an alcohol, and an ionic liquid. In other embodiments, the SLES composition may include one or more components selected from a group consisting of alcohol ethoxylate, and sodium sulfite.

The types and the amounts of the alcohol and the ionic liquid, including preferred embodiments and the relative weight ratios among the alcohol, the ionic liquid, and the SLES premix, that are suitable for the process are substantially the same as those described in the section, SLES COMPOSITIONS WITH AN IMPROVED RHEOLOGY. Thus, details of the formulation will not be repeated.

In some embodiments, the SLES premix is blended with the alcohol first before blended with the ionic liquid. In other embodiments, the ionic liquid and the alcohol are mixed first to prepare a stock solution of the ionic liquid/alcohol blend; the stock solution is then mixed with the SLES premix. In further embodiments, all of the components are added and mixed altogether.

The mixing step can be conducted by any conventional equipment, following conventional methods. The components may be heated to facilitate the mixing, followed by cooling. Preferably, all the components are mixed until they become homogenous.

The following examples are intended to further illustrate the invention and are not intended to limit the invention in any way.

In order to compare differences in rheology of SLES as a result of the addition of ethanol and/or tris(<NUM>-hydroxyethyl) methyl-ammonium methylsulfate (Efka® IO <NUM>, in short "Efka"), SLES compositions of six formulas were prepared: Formula <NUM> consists of a SLES premix (SLES:water = <NUM>:<NUM> by weight) only; Formula <NUM> includes <NUM> parts the SLES premix, <NUM> parts ethanol, and no ionic liquid; Formula <NUM> includes <NUM> parts the SLES premix, <NUM> parts Efka and no alcohol; Formula <NUM> includes <NUM> parts the SLES premix, <NUM> parts ethanol, and <NUM> parts Efka; Formula <NUM> includes <NUM> parts the SLES premix, <NUM> parts ethanol, and no ionic liquid; and Formula <NUM> includes <NUM> parts the SLES premix, <NUM> parts ethanol, and <NUM> parts Of these formulas, Formulas <NUM> and <NUM> are according to the invention, Formulas <NUM>-<NUM> and <NUM> are not. The compositions were prepared at a laboratory scale. For each composition, except the composition of Formula <NUM>, <NUM> of the SLES premix was used.

SLES composition of Formula <NUM> was prepared by mixing SLES and water. SLES compositions of Formulas <NUM> to <NUM> were prepared generally as follows: <NUM>) providing a mixing container with an overhead stirrer; <NUM>) adding water (if applicable) to the container; <NUM>) adding an SLES:water (<NUM>:<NUM>) premix, ethanol (if applicable) and Efka IO <NUM> (if applicable), and optionally other ingredients, in the container and mixing all of the ingredients with the stirrer until a homogenous mixture is obtained. During the process, each composition was checked for clumps which were broken as required. The mixing process can be conducted at an elevated temperature to facilitate the mixing by heating the components in the container directly or indirectly (i.e., heating up the container). Finally, the SLES compositions were cooled to room temperature.

Rheology measurements were conducted using an AR2000-EX Rheometer with a test method of increasing the shear rate from <NUM> to <NUM><NUM>/s over <NUM> minutes at <NUM> with a geometry cone of <NUM>, <NUM>:<NUM>:<NUM> (degree:min:sec), and a truncation gap of <NUM> microns (cone is part number <NUM>). Viscosities (Pa. S) of the SLES Blend Formulations prepared in Example <NUM> were measured and reported in Table <NUM>. "Efka" in the Tables of the application stands for Efka® IO <NUM>. "SLES*" in Table <NUM> of the application stands for a mixture of SLES and water with a ratio of <NUM>:<NUM>.

<FIG> is a graph showing the rheology changes of SLES as a result of the addition of ethanol and/or Efka, based on the data of Table <NUM>.

As shown in <FIG>, the addition of ethanol reduced the viscosity of SLES, however, the extent of reduction depended on the ratio of SLES and ethanol in the composition. When the SLES:ethanol ratio was <NUM> parts SLES to <NUM> parts ethanol (Formula <NUM>), the viscosity of the SLES blend was reduced significantly, from <NUM>,<NUM> cP (Formula <NUM>) to <NUM> cP at a shear rate of <NUM><NUM>/s. When the SLES:ethanol ratio was <NUM> parts SLES to <NUM> parts ethanol (Formula <NUM>), the viscosity was only reduced to <NUM>,<NUM> cP from <NUM>,<NUM> cP (Formula <NUM>) at a shear rate of <NUM><NUM>/s.

<FIG> shows that the addition of an ionic liquid alone to the SLES premix did not cause too much change of the rheology of SLES. However, when the ionic liquid was added to an SLES blend having the SLES premix and ethanol, it greatly improved the rheology of SLES.

When an additional <NUM> parts of an ionic liquid was added to the SLES blend having SLES premix:ethanol ratio of <NUM> parts:<NUM> parts, the viscosity of the SLES blend (Formula <NUM>) dropped from <NUM>,<NUM> cP (Formula <NUM>) to <NUM>,<NUM> cP (Formula <NUM>) at a shear rate of <NUM><NUM>/s, and from <NUM>,<NUM> cP (Formula <NUM>) to <NUM>,<NUM> cP (Formula <NUM>) at a shear rate of <NUM><NUM>/s. The rheology of the SLES:ethanol:Efka (<NUM>:<NUM>:<NUM>) blend shows a curved line, having a high viscosity initially at a lower shear rate and dropping to a low and nearly the same viscosity at a medium to high shear rate, which is a manageable level from a process point of view.

When an additional <NUM> parts of an ionic liquid was added to the SLES blend having an SLES premix:ethanol ratio of <NUM> parts:<NUM> parts, the viscosity of the SLES blend (Formula <NUM>) further dropped to <NUM>,<NUM> cP at a shear rate of <NUM><NUM>/s, which is a processable at the manufacturing plants. In fact, the viscosity graph was substantially level regardless whether the viscosity was measured from a low shear rate to a high shear rate. The viscosity graph of the SLES premix:ethanol:Efka (<NUM>:<NUM>:<NUM>) blend was parallel to that of the SLES premix:ethanol (<NUM>:<NUM>) blend, which shows that the SLES premix:ethanol:Efka (<NUM>:<NUM>:<NUM>) blend is potentially a good replacement of the SLES premix:ethanol (<NUM>:<NUM>) blend during manufacturing process for supply of SLES.

The rheology of compositions of Formulas <NUM> and <NUM> showed a clear trend that the more Efka added to the SLES blend, the lower viscosity of the SLES blend. Additionally, less ethanol is required to reduce viscosity of the SLES composition if Efka is added.

<FIG> shows that there existed a synergic effect in lowering the viscosity level of SLES as a resulting of adding both ethanol and Efka. When only Efka (<NUM> parts) is added to the SLES premix, the rheology of the resulting composition of Formula <NUM> is substantially the same as that of the composition of Formula <NUM>. When only ethanol (<NUM> parts) is added to the SLES premix, the rheology of the resulting composition of Formula <NUM> only improves modestly. However, when both Efka (<NUM> parts) and ethanol (<NUM> parts) were added to the SLES premix, the rheology of the resulting composition of Formula <NUM> showed a significant improvement compared to that of the composition of Formula <NUM>.

Laundry detergent compositions using the SLES blend, as set forth in Table <NUM>, were prepared by following conventional methods of preparation. Compositions <NUM> and <NUM> are according to the invention , composition <NUM> is not. Instead of using neat SLES or an SLES premix, a flowable and processable SLES blend was used during the manufacturing process, as indicated in Table <NUM>.

Claim 1:
A polyethoxylated alcohol sulfate blend consisting essentially of:
a polyethoxylated alcohol sulfate having Formula (I):

        R'-O-(C2H4O)n-SO3M'     (I)

wherein R' is a C8-C20 alkyl group, n is from <NUM> to <NUM>, and M' is a salt-forming cation, preferably, R' is C10-C18 alkyl, n is from <NUM> to <NUM>, and M' is sodium, potassium, ammonium, alkylammonium, or alkanolammonium,
an alcohol,
an ionic liquid, and
water;
wherein the polyethoxylated alcohol sulfate is present in an amount ranging from about <NUM>% to about <NUM>% by weight of the blend,
wherein the polyethoxylated alcohol sulfate is sodium laureth ether sulfate (SLES), wherein the polyethoxylated alcohol sulfate and water have a weight ratio of <NUM>:<NUM>,
and
wherein the alcohol is selected from a group consisting of ethanol, isopropyl, propanol, butanol, pentanol, hexanol, heptanol, and octanol, and a mixture thereof; and wherein the ionic liquid is selected from a group consisting of trioctyl methyl amine dioctyl sulfosuccinate, triisooctyl methyl amine C12-C13 methyl branched dodecyl sulfate, tetraoctyl amine dodecyl sulfate, N-dodecyl-N,N-dimethyl-N-hydroxyammonium dodecyleethoxysulfate, N-(dodecylamindopropyl)-N, N-dimethyl-N-carboxymethylammonium, N-(dodecylamindopropyl)-N, N-dimethyl-N-carboxymethylammonium, tris(<NUM>-hydroxyethyl) methyl-ammonium methylsulfate, and a mixture thereof.