SCOTT CHARLES
RUCKLE ROBERT E
POLICELLO GEORGE A
WO1995003881A1 | 1995-02-09 |
US4514319A | 1985-04-30 | |||
US4690688A | 1987-09-01 | |||
EP0791384A2 | 1997-08-27 |
1. | An emulsifiable concentrate comprising : (a) a organic solvent soluble pesticide ; (b) an emulsifier ; and (c) a silicone antifoam of the structure : [R2 (R1)2SiO1/2]e[SiO4/2]f[SiO3/2R1]g[SiO2/2(R1)2x[SiO2/2R1Z]y e= 2*f + g + 2 ; f = 0 to 2, g = 0 to 2, x = 30150, y = 0') 0, where when y>O, x/y= 4 to 18, preferably 7 to 12, and x +y >= 30 ; and when y = 0, then x/e is 20/1 to 10/1, preferably 18/1 to 12/1 ; Rl = alkyl of 118 carbon ; R2 = R'or Z with the proviso that when y = 0, R2 = Z ; Z = R4OB, lG ; R4 is a divalent bridging group of 24 carbons, B is an alkylene oxide group containing 24 carbon (EO/PO/BO), wherein less than ten mole percent of the alkylene oxide functionalities are ethylene oxide ; n = 830, and G=H, hydrocarbon radical of 118 carbons, or acetyl, preferably H. |
2. | A concentrate according to claim 1 additionally comprising an organic solvent. |
3. | A concentrate according to claim 2 wherein the solvent is selected from the group consisting of paraffinic oils, aromatic solvents, chlorinated hydrocarbons, alcohols, ketones, ethers, vegetable oils, petrol oils and C9C12 hydrocarbon solvents. |
4. | A concentrate according to claim 1 wherein the emulsifier is nonionic and is an alkoxylated alcohol or an alkoxylated alkyl phenol. |
5. | A concentrate according to claim 1 wherein n = 8 to 15, f= 0, g = 0, R'and R2 are methyl, R4 is a C3 bridging group, x/y = 7 to 12, and x = 60 to 90. |
6. | A concentrate according to claim 5 wherein the silicone is present at 0. 01 to ten weight percent of the concentrate, the emulsifier is present at 1 to 50 weight percent of the concentrate and the pesticide is present at 40 to 97 weight percent of the concentrate. |
7. | A concentrate according to claim 6 additionally comprising an organic solvent at 20 to 50 weight percent of the concentrate. |
Antifoams or defoamers frequently are used to control foam formation in pesticide processes or tank-side application. Most conventional antifoams consist of mixtures of insoluble oil and hydrophobic solid particles. The EC formulation containing this type of antifoam is heterogeneous (i. e., the system consists of two insoluble phases). However, the heterogeneous phase is unstable and eventually separation will occur during either the formulation or storage period, which cause cream problems. So far, this problem has not been solved in pesticide EC formulation.
Summary of the invention The present invention relates to a foam control agent that is a homogeneous mixture (i. e., one phase) in EC pesticidal compositions. The EC detailed here comprise, in general, an organic solvent, soluble organic pesticide or mixtures of organic solvent soluble organic pesticides, emulsifiers, and an organosilicone foam control agent that is soluble in the EC matrix.
Detailed Description of the Invention The EC may contain the following ingredients : Active ingredient, Emulsifiers, Antifoam, Solvent and Optional Ingredients. a) Active ingredient : The choice of active (s) is pre-determined by the intended application. The active ingredient includes any organic solvent soluble pesticide or mixtures or pesticides. The liquid herbicides useful herein include but are not limited to chloroacetamides (dimethanamid) or chloroacetanilides such as 2'-ethyl-6'-methyl-N- (ethoxymethyl)-2-chloroacetylanilide (acetochlor), 2'6'-diethyl-N-propoxyethyl-2- chloroacetanilide (pretilachlor) 2-ethyl-6-methyl-N-(l'-methyl-2'-methoxyethyl) chloroacetylanilide (metachlor), N-Butoxy methyl-2'-6'-diethyl-2-chloro acetylanilide (butachlor), and others including alachlor, metolachlor, diethatyl. metazachlor, dimethachlor, and preferably acetochlor ; dichloroacetamide (dichlormid) ; butylates ; cinmethylin ; aryloxyphenoxys including fluazifop (e. g. fluazifop-P aryloxyphenoxy propionate) ; phenoxys and phenoxy derivatives such as phenoxy esters, phenoxyalkanoic acid, phenoxyacetic acid including 2, 4-D ester ; thiocarbamates or carbamothioates including butylate, cycloate, molinate, pebulate, thiobencarb,
triallate, vernolate, s-ethyl dipropyl carbamothioate, s-ethyl diethylcarbamathioate (ethiolate) ; dietholate ; cyclohexanedione or cyclohexanone including sethoxydim or clethodim ; dinitroaniline (isopropalin) ; oximes (fluxofenim) ; aldehydes (acrolein) ; and so forth.
Examples of useful solid herbicides include benzoic acids and derivatives of benzoic acid including 3, 6-dichloro-o-anisic acid also referred to by various trade or other names including naptalam and dicamba sold under various trades or names including BANVEL, BANFEL, BANVEL CST, BANVEL D, BANVEL XG, MEDIBEN, BANEX, and so forth, and imidazolinyl benzoic acids and esters and salts thereof ; ureas such as tebuthiuron ; and AC 263, 222 ; imines such as CGA-248757 ; imides including N-phenylphthalimide such as Flumichlorac ; phenoxys and derivatives of phenoxys including phenoxyalkanoic acid or phenoxy acetic acid such as 2, 4-D (2, 4-dichlorphenoxy acetic acid), 3, 4-DA (3, 4- dichlorphenoxy acetic acid), 2, 4-DB (4- (2, 4-dichlorophenoxy) acetic acid), 3, 4-DB (4- (3, 4-dichlorphenoxy) butanoic acid), 2, 4-DEB (2- (2, 4-dichlkorphenoxy) ethyl benzoate), 2, 4-DEP (tris [2- (2, 4-dichlorophenoxy) ethyl] phosphite), MCPA acid (4- chloro-2-methylphenoxy acetic acid), MCPB acid (4- (4-chloro-2- methylphenoxy) butanoic acid) acid, mecoprop, diclofop, difenopenten, and dichlorprop ; aryloxyphenoxy propionates such as fenoxaprop, haloxyfop and Quizalofop-P ; benzothiazoleacetic acids such as benazolin ; dimethyl tetrachloroterephthalate (DCPA) ; amides and derivatives of amides such as pronamide, propanil and napropamide ; acetamides such as mefluidide ; benzamid such as isoxaben ; chloroacetamides or chloroacetanilides such as propachlor ; dichloroacetamide such as R-29148 ; dinitroanilines such as benefin, oryzalin and
prodiamine ; nitriles including benzonitriles and hydroxybenzonitriles such as bromoxynil, ioxynil and dichlobenil ; diphenylethers or nitrodiphenylethers such as acifluorfen, bifenox, fluoroglycofen, fomesafen and oxyfluorfen ; dithiocarbamates such as metham ; carbamates including phenylcarbamates such as desmedipham, phenmedipham and asulam ; ureas including phenylureas such as fluometuron, linuron, siduron and diuron ; pyridazinonone such as norflurazon and pyrazon ; pyridines such as dithiopyr and thiazopyr ; pyridinone such as fluridone ; pyridinecarboxylic acid or picolinic acid such as triclopyr, clopyralid and picloram ; oxadiazolidines such as methazole ; benzothiadiazole such as bentazon ; and so forth.
Liquid insecticides useful herein include but are not limited to organophosphates such as fonofos (Dyfonate), diazinon, malathion, parathion, and so forth ; piperonyl butoxides ; synthetic pyrethroids such as bioresmethrin, resmethrin and zeta-cypermethrin ; a synthetic pyrethrin-type such as allethrin ; and so forth.
Solid insecticides include but are no limited to pyrethrins ; carbamates such as aldicard ; synthetic pyrethroids such as bifenthrin, permethrin and tefluthrin ; organophosphates such as methyl parathion ; organophosphates such as acephate and dimethoate ; organochlorines such as endosulfan ; carbamates such as carbaryl (l- naphthyl N-methylcarbamate) and methomyl (s-methyl N- [methylcarbamoyl) oxy]- thioacetamimidate) ; and so forth.
Fungicides include categories of aliphatic nitrogen fungicides ; anilide ; aromatic fungicides including aromatic nitriles ; benzimidazoles and benzimidazole precursors ; carbamates ; benzimidazole carbamates ; chlorophenyls ; conazoles ; dicarboximides ; dinitrophenyls ; thiocarbamates and dithiocarbamates ; imidazoles ; morpholines ; organo phosphorous fungicides ; guanidines ; hydroxyanilides ;
morpholines ; oils, phenylamides ; phenylsulfamides ; phenylureas ; pyridines ; phthalimides ; pyrimidinamines ; pyrimidines ; pyrimidinols ; quinolines ; quinones ; quinoxalines ; thiazoles ; stobilurins ; triazoles ; xylylanines ; various unclassified fungicides ; and so forth.
Examples of liquid fungicides useful herein include but are not limited to morpholines such as fenpropidin, fenpropimorph and tridermorph ; piperalin ; conazoles such as flusilazole, propiconazole, tebuconazole, triadimefon, and so forth ; pyridines such as pyrifenox ; thiazoles such as etradiazole ; organo phosphorous compounds such as phosdiphen ; imidazoles such as pefurazoate ; and so forth.
Blends of pesticide may be used.
Preferably, the amount of total pesticide in the emulsifiable concentrate is between about 40% to about 97%, even more preferably about 50% to about 90%, and most preferably about 65% to about 80%. b) Emulsifers : The emulsifiers may consist of at least one emulsifier which can be a nonionic surfactant, ionic surfactant or a blend of both type of surfactants. The useful nonionic surfactants include : alkoxylate block polymers, alkoxylated alcohols, alkoxylated alkylphenols ; alkoxylated amines, alkoxylated amides ; alkoxylated fatty esters, alkoxylated oils, fatty esters, alkoxylated fatty acids, sorbitan derivatives, etc.
The typically ionic surfactants found in emulsifiers are : alkylaryl sulfonates ; alkylaryl sulfonic acides ; carboxylated alcohol ethoxylates and alkylphenol ethoxylates ; carboxylic acides/fatty acids ; diphenyl sulfonate derivatives ; olefin sulfonates ; phosphate esters ; phosphorous organice derivatives ; quaternary
surfactants ; sulfates and sulfonates of oils and fatty acide ; sulfates and sulfonates ethoxylated alkylphenols ; sulfates of ethoxylated alcohols ; sulfates of fatty esters ; sulfonates of dodecyl and tridecylbenzenes ; sulfonates of naphthalene and alkyl naphthalene ; sulfonates of petroleum ; sulfosuccinamates, alkanolamides, alkoxylated amine.
The preferred emulsifiers for this application are alkoxylated alcohols and alkyphenol, most preferably of 4 to 50 ethylene oxide units and a hydrophobe of 4 to 16 carbons. Other preferred surfactants are alkylphenol EO/PO block copolymers. e. g., WITCONOL NS 108 LQ, and alkoxylated amine salts of ethoxylated alkylphenol sulfates, e. g., WITCOLATE 1335 from CK Witco Corporation.
Developing an effective emulsifier (blend of emulsifiers) requires careful screening of potential emulsifiers (surfactants), conducting emulsion tests according to prescribed method, and optimizing the performance of the most promising emulsifier (s). The screening of potential emulsifiers package is dependent on pesticide active type, and solvents. One skilled in the art of EC technology understands the importance of HLB and surfactant choice for such formulations.
The surfactant is present at 1 to 50 weight percent of the emulsifiable concentrate, preferably 3 to 10 weight percent.
C) Solvent The selection of a suitable solvent (s) system is made by taking into consideration the solubility of the active (s) and the chemical and toxicological profiles of the solvent (s). The solvents include all EPA AP proved solvents and the list may include : alphatic paraffinic oils such as kerosene or refined paraffins ;
aromatic solvents such as xylene ; C9-C) 2 aromatic solvents such as AROMATIC 100, 150 AND 200 (Exxon Chemical), ISOPAR L, SOLVESSO 100, 150, and 200 ; chlorinated hydrocarbons such as chlorobenzene ; alcohols such as butanol and benzyl alcohol ; ketones such as cyclohexanone and N-methyl pyrollidone ; and ethers such as diethylene glycol and diethoxol. In addition, the solvent may include vegetable oils, methylated vegetable oils, petrol-oils, sugar esters of fatty acids, e. g., sucrose esters, etc.
The preferred solvents are Cg-Cl2 hydrocarbon solvents because of their low cost and their ability to solubilize many pesticide toxicants.
The solvent may be present at 0 to 95 weight percent of the emulsifiable concentrate, preferably 20 to 50 weight percent.
D) Silicone antifoam The general structure of silicone antifoam is : [R2 (R1)2SiO1/2]e[SiO4/2]f[SiO3/2R1]g[SiO2/2(R1)2]x[SiO2/2R1Z]y e=2*f+g+2 ; f =0 to 2, preferably 0 ; g = 0 to 2, preferably 0 ; x = 30-150, prefer 90-100, most preferably 60-90 ; y = 0-30, preferably 4-15 ; Where when y>0, x/y= 4 to 18, preferably 7 to 12, and x +y >= 30 ; and when y = 0, then x/e is 20/1 to 10/1, preferably 18/1 to 12/1 ; R'= alkyl of 1-18 carbon ; R2 = R'or Z with the proviso that when y = 0, R2 = Z ; Z = R4OBnG ;
R4 iS a divalent bridging group of 2-4 carbons, preferably C3 ; B is an alkylene oxide group containing 2-4 carbon (i. e., EO, PO or BO), wherein less than ten mole percent of the alkylene oxide functionalities are ethylene oxide, but preferably, none is ethylene oxide (EO) ; n = 8-30, preferably 8-15 ; and G=H, hydrocarbon radical of 1-18 carbons, or acetyl, preferably H.
The foam control agent should be present at 0. 01 to ten weight percent of the emulsifiable concentrate.
E) Optional ingredients Other additives may optionally be included in the formulation at very little amount (< 5 wt. %). Such additives can include, for example, an antifreeze, pH buffer etc. A finely divided hydrophobic filler such as silica, or Tir2 may be added.
Emulsifiable Concentrate Preparation The preparation of an emulsifiable concentrate containing the silicone antifoam is accomplished by adding the silicone either into the emulsifiers, or into the mixtures of emulsifiers, solvent, and active ingredients with proper mixing or blending. Typical ingredients which can be used in the preparation of the emulsifiable concentrates are described above.
Emulsifiable Concentrate Application to Agriculture Emulsifiable concentrates of the present invention can be diluted with water to a desired solids level and applied onto the targets using any suitable means, such as,
for example, spraying, dipping or rubbing. The amount of active in the final formulation is 1 to 95 weight percent. The amount of antifoam in the total emulsion ranges from about 1 to 200 ppm, and preferably the amount ranges from about 1 to 40 ppm by weight.
EXAMPLES Description of Test Methods Effect on foam control-A shake test was used to measure the foamability of different tank mixtures. Different emulsifiable concentrates with or without silicone antifoam were diluted with water. Then 50 ml of each emulsion was shaken for 2 minutes with a Wrist shaker. The foam height was recorded at 0, 1, 2 and 5 minute after shaking.
Emulsifiable concentrates Stability-The stability of the emulsifiable concentrates was examined by storing at room temperature and in a 50° C oven for three weeks.
Example 1 Table 1. Organosilicones included in the listed EC formulations Reference X E Y F G Description of Z group Silicone 1742900¬30 (60), 3-H Silicone 2 (comp) 7 2 0 0 C3H60 (C3H60) 13-Butyl Silicone 3 (comp.) 0 2 1 0 0 C3H6O(C3H6O)1.6-H Table 2. Comparative Conventional Antifoams Reference Description Sag 47 (CK Witco) 100% dimethylpolysiloxane compound Silex SE-2 (Exacto) 20% dimethylpolysiloxane emulsion
Butachlor EC formulation W/O Antifoam (EC W/O) Ingredients % weight WITCOLATE 1335 2. 8 NS 108 LQ 1. 4 A-150 1. 8 A-100 37. 6 Butachlor 56. 4 Butachlor EC formulation with Silicone 1 (EC/Silicone 1) Ingredients % weight WITCOLATE 1335 2. 8 NS 108 LQ 1. 4 A-150 1. 6 Silicone 1 * 0. 2 A-100 37. 6 Butachlor 56. 4 Comparative Butachlor EC formulation with Silicone 2 (EC/Silicone 2) Ingredients % weight WITCOLATE 1335 2. 8 NS 108 LQ 1. 4 A-150 1. 6 Silicone 2 0. 2 A-100 37. 6 Butachlor 56. 4 Comparative Butachlor EC formulation with Silicone 3 (EC/Silicone 3) Ingredients % weight WITCOLATE 1335 2. 8 NS 108 LQ 1. 4 A-150 1. 6 Silicone 3 0. 2 A-100 37. 6 Butachlor 56. 4
Comparative Butachlor EC formulation with SAG 47 (EC/SAG 47) Ingredients % weight WITCOLATE 1335 2. 8 NS 108 LQ 1. 4 A-150 1. 6 SAG 47 0. 2 A-100 37. 6 Butachlor 56. 4 Comparative Butachlor EC formulation with Silex SE-2 (EC/Silex SE-2) Ingredients % weight WITCOLATE 1335 2. 8 NS 108 LQ 1. 4 A-150 1. 6 SILEX SE-2 0. 2 A-100 37. 6 Butachlor 56. 4 Foam Control and Stability Results Formulation Foam Heighta Stability 0 min 1 min EC W/O Antifoam 6 6 clear EC W/Silicone 1 3 0 clear EC W/Silicone 2 6 6 clear EC W/Silicone 3 6 6 clear EC W/Sag 47 0 0 Separate EC W/Silex-SE 2 0 0 Separate a : Foam height was measured after the 2-min shake b : At both room temperature and 50° C oven.
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