DETERGENT COMPOSITION FOR LIQUID CARBON DIOXIDE BASE CLEANING

Abstract

A liquid carbon dioxide base cleaning detergent composition includes: an organic solvent represented by chemical formula 1, and a contaminant remover, where the chemical formula 1 is R.sub.1—(CH.sub.2).sub.m(CF.sub.2).sub.n—R.sub.2, m refers to integers from 0 to 4, n refers to integers from 1 to 5, R.sub.1 and R.sub.2 refer to hydrogen H, fluorine F, CH.sub.3, CH.sub.30 or CF.sub.3.

Claims

1. A liquid carbon dioxide base cleaning detergent composition comprising: an organic solvent represented by chemical formula 1; and a contaminant remover, wherein the chemical formula 1 is R.sub.1—(CH.sub.2).sub.m(CF.sub.2).sub.n—R.sub.2, wherein m refers to integers from 0 to 4, n refers to integers from 1 to 5, R.sub.1 and R.sub.2 refer to hydrogen H, fluorine F, CH.sub.3, CH.sub.30 or CF.sub.3.

2. The liquid carbon dioxide base cleaning detergent composition of claim 1, wherein the organic solvent comprises one or more of Pofluoroheptane (PFH, CH.sub.3(CF.sub.2).sub.5CF.sub.3), pentafluorobutane (PFB, CF.sub.3CH.sub.2CF.sub.2CH.sub.3), decafluoropentane (DFP, CF.sub.3(CFH).sub.2CF.sub.2CF.sub.3) or methoxy nonafluorobutane (MNF, CH.sub.3O(CF.sub.2).sub.2CF.sub.3).

3. The liquid carbon dioxide base cleaning detergent composition of claim 1, wherein the contaminant remover comprises: an oil-based contaminant remover, and a water-based contaminant remover.

4. The liquid carbon dioxide base cleaning detergent composition of claim 3, wherein the oil-based contaminant remover is represented by chemical formula 2, wherein the chemical formula 2 is R.sub.3—O—(CO)—O—R.sub.4, and wherein R.sub.3 and R.sub.4 refer to 1-4 alkyl group.

5. The liquid carbon dioxide base cleaning detergent composition of claim 4, wherein the oil-based contaminant remover comprise one or more of dimethyl carbonate, diethyl carbonate, dipropyl carbonate, or dibutyl carbonate.

6. The liquid carbon dioxide base cleaning detergent composition of claim 3, wherein the water-based contaminant remover is represented by chemical formula 3, wherein the chemical formula 3 is C.sub.mH.sub.2m+1—O—(CH.sub.2CH.sub.2O).sub.n—H, and wherein m refers to integers from 5 to 21, and n refers to integers from 1 to 10.

7. The liquid carbon dioxide base cleaning detergent composition of claim 6, wherein the water-based contaminant remover includes one or more of polyoxy ethylene dodecanyl ether, polyoxy ethalene tetra decanyl ether, polyoxy hexadecanyl ether, or polyoxy ethylene hepta decanyl ether.

8. The liquid carbon dioxide base cleaning detergent composition of claim 1, further comprising: 80 to 99 wt % of the organic solvent; and 1 to 20 wt % of the contaminant remover.

9. The liquid carbon dioxide base cleaning detergent composition of claim 3, further comprising: 80 to 90 wt % of the organic solvent; 1 to 10 wt % of the oil-based contaminant remover; and 1 to 10 wt % of the water-based contaminant remover.

Description

DETAILED DESCRIPTION

[0028] The present disclosure relates to detergent composition having excellent usability for high-pressure liquid carbon dioxide cleaning, more particularly, to liquid carbon dioxide base cleaning detergent composition that can have excellent solubility of detergent ingredients in liquid carbon dioxide enough to efficiently remove both oil-based contaminants and water-based contaminants.

[0029] The liquid carbon dioxide base cleaning detergent composition can include an organic solvent represented by following Chemical Formula 1, and a contaminant remover.

[0030] The organic solvent provided in the liquid carbon dioxide base cleaning detergent composition will be described below. The liquid carbon dioxide base cleaning detergent composition can include an organic solvent that is used in efficiently dissolving a contaminant remover, without phase-change of liquid carbon dioxide that might occur by pressure decrease in a tub. The organic solvent can be a fluorine solvent and represented by following Chemical Formula 1:

R.sub.1—(CH.sub.2).sub.m(CF.sub.2).sub.n—R.sub.2  [Chemical Formula 1]

[0031] In Chemical formula 1, ‘m’ refers to 0-4 integers and ‘n’ refers to 1-5 integers. ‘R.sub.1’ and ‘R.sub.2’ refer to hydrogen H, fluorine F, CH.sub.3, CH.sub.3O or CF.sub.3. ‘R.sub.1’ and ‘R.sub.2’ can be equal to or different from each other.

[0032] The Fluorine-base organic solvent can have excellent friendliness with discursive polar and non-polar solvents and excellent mixing force with liquid carbon dioxide that is provided as a non-polar solvent in the tub. In addition, the fluorine-base organic solvent can have excellent friendliness with organic solvents such as fiber-based, chlorine-based, cyclic silicone or silicone-based, fluorine-based, terpene oil-based organic solvents, and anionic and cationic surfactants or water-soluble raw materials.

[0033] Accordingly, fluorine-base organic solvent can be provided to maintain a homogeneous phase of a raw material when the non-polar liquid carbon dioxide solvent is mixed with the contaminant remover.

[0034] Specifically, the fluorine-base organic solvent can include one or more of the groups that include Pofluoroheptane (PFH, CH3 (CF2)5CF3), pentafluorobutane (PFB, CF3CH2CF2CH3), decafluoropentane (DFP, CF3 (CFH) 2CF2CF3) and methoxy nonafluorobutane (MNF, CH3O (CF2)2CF3). The present disclosure may not be limited thereto.

[0035] The contaminant remover provided in the liquid carbon dioxide base cleaning detergent composition will be described below.

[0036] The composition can include the contaminant remover having excellent friendliness with the organic solvent. Specifically, the composition can include an oil-based contaminant remover and a water-based contaminant remover.

[0037] The water-based contaminant remover can include a compound that may be represented by following Chemical formula 2:

R.sub.3—O—(CO)—O—R.sub.4  [Chemical formula 2]

[0038] In Chemical formula 2, ‘R.sub.3’ and ‘R.sub.4’ refer to 1-4 alkyl groups. ‘R.sub.3’ and ‘R.sub.4’ can be equal to or different from each other.

[0039] The contaminant remover provided in the composition will be described below.

[0040] Specifically, the oil-based contaminant remover can include one or more of the groups that include dimethyl carbonate, diethyl carbonate, dipropyl carbonate, and dibutyl carbonate. The present disclosure may not be limited thereto.

[0041] Next, the water-based contaminant remover can include a compound that is represented by following Chemical formula 3:

C.sub.mH.sub.2m+1—O—(CH.sub.2CH.sub.2O).sub.n—H  [Chemical formula 3]

[0042] In Chemical formula 3, ‘m’ refers to 5-21 integers and ‘n’ refers to 1-10 integers.

[0043] Specifically, the water-based contaminant remover can include one or more of the groups including polyoxy ethylene dodecanyl ether, polyoxy ethalene tetra decanyl ether, polyoxy hexadecanyl ether and polyoxy ethylene hepta decanyl ether. The present disclosure may not be limited thereto.

[0044] The liquid carbon dioxide cleaning detergent composition will be described below.

[0045] The liquid carbon dioxide cleaning detergent composition can include 80 to 99 wt % of the organic solvent and 1 to 20 wt % of the contaminant remover.

[0046] Specifically, the contaminant remover can include 1 to 10 wt % of the oil-based contaminant remover and 1 to 10 wt % of the water-based contaminant remover, based on 100 wt % of the composition.

[0047] In some implementations, the organic solvent can include an amount of 80 to 90 wt % (by weight) in the liquid carbon dioxide-base cleaning detergent composition.

[0048] When the content of the organic solvent in the composition is less than 80 wt %, there may be a problem in maintaining a uniform phase because the additive raw materials such as the contaminant remover are not sufficiently mixed.

[0049] Next, the oil-based contaminant remover can be included in the composition in an amount of 1 to 10 wt %. If the content of the oil-based contaminant remover in the composition is less than 1 wt %, there may be a problem in that the oil-based contaminant removal of the fiber is lowered, and if it exceeds 10 wt %, there may be problems such as phase separation during the preparation of the composition.

[0050] Next, the water-based contaminant remover can be included in the composition in an amount of 1 to 10 wt %. If the content of the water-based contaminant remover in the composition is less than 1 wt %, there may be a problem in that the water-based contaminant removing power from the fiber is lowered, and if it exceeds 10% by weight, the remover may remain on the surface of the fiber when drying after washing and there may be a problem that stains may occur.

[0051] In some implementations, it is preferable to contain 5 to 15% by weight in the liquid carbon dioxide of the liquid carbon dioxide base cleaning detergent composition described above. If the detergent composition is less than 5% by weight based on 100% by weight of the total amount of the detergent composition and the liquid carbon dioxide, the detergent content in the liquid carbon dioxide may be insufficient, thereby reducing oil-based and water-based stain removal power. In addition, when the detergent composition exceeds 15% by weight, there may be a problem in that the raw material used for the detergent remains on the surface of the fiber during drying after washing, resulting in stains.

[0052] Hereinafter, one exemplary implementations of the present disclosure will be described in detail.

[0053] 1. Preparation of One Exemplary Implementation and One Compared Example:

[0054] A liquid carbon dioxide base cleaning detergent composition was prepared by adding an oil-based contaminant remover and a water-based contaminant remover to an organic solvent and stirring until a transparent liquid was obtained at room temperature.

[0055] The components and compositions of the organic solvent, the contaminant remover, and the water-based contaminant remover are shown in Table 1 below.

TABLE-US-00001 TABLE 1 Oil-based contaminant Water-based contaminant Organic solvent (wt %) remover (wt %) remover (wt %) Category A1 A2 A3 A4 B1 B2 B3 B4 C1 C2 C3 C4 Implementation 1 89 1 10 Implementation 2 85 5 10 Implementation 3 80 10 10 Implementation 4 89 10 1 Implementation 5 90 5 5 Implementation 6 89.5 0.5 10 Implementation 7 89.5 10 0.5 Implementation 8 75 10 15 Implementation 9 89 1 10 Implementation 10 85 5 10 Implementation 11 80 10 10 Implementation 12 89 10 1 Implementation 13 90 5 5 Implementation 14 89.5 0.5 10 Implementation 15 89.5 10 0.5 Implementation 16 75 10 15 Implementation 17 89 1 10 Implementation 18 85 5 10 Implementation 19 80 10 10 Implementation 20 89 10 1 Implementation 21 90 5 5 Implementation 22 89.5 0.5 10 Implementation 23 89.5 10 0.5 Implementation 24 75 10 15 Implementation 25 89 1 10 Implementation 26 85 5 10 Implementation 27 80 10 10 Implementation 28 89 10 1 Implementation 29 90 5 5 Implementation 30 89.5 0.5 10 Implementation 31 89.5 10 0.5 Implementation 32 75 10 15 A1: pentafluorobutane A2: perfluoroheptane A3: decafluoropentane A4: methoxy nonafluorobutane B1: perdimethyl carbonate B2: diethyl carbonate B3: dipropyl carbonate B4: dibutyl carbonate C1: polyoxyethylene dodecyl ether EO 7 molar adduct C2: polyoxy ethalene tetradecanyl ether C3: polyoxy hexadecanyl ether C4: polyoxyethylene hepta decanyl ether Comparative Example 1: Electrolux detergent composition Comparative Example 2: Professional wet cleaning Comparative Example 3: Professional dry cleaning

[0056] 2. Washing Performance Evaluation

[0057] A specimen (cotton/poly 50:50) was prepared, and immerse the specimen in water-based contamination by dissolving 10 g of mixed coffee in 100 mL of hot water and oil-based contamination, which is a common automobile transmission oil, respectively. After that, a stained cloth was prepared by drying at 60° C. for 2 hours 30 minutes. The stained cloth was washed for 10 minutes in a liquid carbon dioxide cleaning tank in which 11 wt % of the detergent composition according to Examples and Comparative Examples was diluted.

[0058] After washing, the washing rate was calculated by observing the reflectance before and after washing with a colorimeter (Minolta CR-300 Chroma-meter). At this time, the washing rate was calculated by the formula ((Rw−Rs)/(Ro−Rs))×100(%), where Ro is the surface reflectance of the original fabric, Rs is the surface reflectance of the soiled fabric before washing, and Rw is the surface reflectance of the soiled fabric after washing. It means the surface reflectance of the contaminated cloth. The calculated wash rates are shown in Table 2 below.

[0059] In addition, after leaving each of the detergent composition stock solutions according to Examples and Comparative Examples under severe conditions (50° C. oven and −5° C. incubator, 7 days), the phase separation phenomenon and transparency of the detergent composition stock solution were visually observed and evaluated. After 7 days, the degree of suspension and separation of the detergent stock solution was evaluated as good or bad, and if the phase of the detergent stock solution was transparent without change, it was marked as excellent.

[0060] The performance evaluation and phase stability evaluation results are shown in Table 2 below.

TABLE-US-00002 TABLE 2 Phase Phase Washing rate(%) stability stability Water-based Oil-based category (50° C.) (−15° C.) flammability contaminant contaminant Embodiment 1 Excellent Excellent Excellent >80 >90 Embodiment 2 Excellent Excellent Excellent >80 >90 Embodiment 3 Excellent Excellent Excellent >80 >90 Embodiment 4 Excellent Excellent Excellent >80 >90 Embodiment 5 Excellent Excellent Excellent >80 >90 Embodiment 6 Excellent Excellent none >80 <60 Embodiment 7 Excellent Excellent none <60 >90 Embodiment 8 Good Good none >80 >90 Embodiment 9 Excellent Excellent none >80 >90 Embodiment 10 Excellent Excellent none >80 >90 Embodiment 11 Excellent Excellent none >80 >90 Embodiment 12 Excellent Excellent none >80 >90 Embodiment 13 Excellent Excellent none >80 >90 Embodiment 14 Excellent Excellent none >80 <60 Embodiment 15 Excellent Excellent none <60 >90 Embodiment 16 Good Good none >80 >90 Embodiment 17 Excellent Excellent none >80 >90 Embodiment 18 Excellent Excellent none >80 >90 Embodiment 19 Excellent Excellent none >80 >90 Embodiment 20 Excellent Excellent none >80 >90 Embodiment 21 Excellent Excellent none >80 >90 Embodiment 22 Excellent Excellent none >80 <60 Embodiment 23 Excellent Excellent none <60 >90 Embodiment 24 Good Good none >80 >90 Embodiment 25 Excellent Excellent none >80 >90 Embodiment 26 Excellent Excellent none >80 >90 Embodiment 27 Excellent Excellent none >80 >90 Embodiment 28 Excellent Excellent none >80 >90 Embodiment 29 Excellent Excellent none >80 >90 Embodiment 30 Excellent Excellent none >80 <60 Embodiment 31 Excellent Excellent none <60 >90 Embodiment 32 Good Good none >80 >90 Comparative Excellent Excellent none <10 <70 example 1 Comparative Excellent Excellent none >90 <10 example 2 Comparative Excellent Excellent none <50 >90 example 3

[0061] From the above results, it was confirmed that the liquid carbon dioxide base cleaning detergent composition of the present disclosure prepared by adding a fluorine-based solvent, a water-based contaminant remover, and an oil-based decontaminant remover can effectively remove oily and aqueous contaminants present on the fiber surface.

[0062] In addition, in Examples 6 to 8, 14 to 16, 22 to 24, and 30 to 32, it can be seen that the content ratio of the organic solvent and the contaminant remover is not appropriate, so that the cleaning performance is slightly poor compared to the other examples.

[0063] In addition, it can be seen that commercially available detergent compositions for cleaning liquid carbon dioxide have very poor ability to remove water-based contaminants.