Compositions for enhancing production of aluminum hydroxide in an aluminum hydroxide production process

The invention claimed is: 1. A liquor crystallization composition comprising: (a) a precipitation liquor comprising an aluminate; and (b) a crystal growth modifier composition comprising 0-99 percent by weight of a carrier liquid comprising a hydrocarbon liquid, and 1-100 percent by weight of a crude corn oil component, a biodiesel component, or a mixture of the crude corn oil component and the biodiesel component, wherein the crude corn oil component comprises crude corn oil extracted as a distinct phase byproduct from an ethanol production process and wherein the biodiesel component comprises a biodiesel or mixture of biodiesels comprising methyl esters of long chain fatty acids. 2. The liquor crystallization composition of claim 1 , wherein the crystal growth modifier composition comprises the crude corn oil component, the crude corn oil component comprising 80 percent or more by weight mono alkyl esters, including C 16 and C 18 ethyl esters, diglycerol esters and triglycerol esters of long chain fatty acids; and 0-15 percent by weight free fatty acids. 3. The liquor crystallization composition of claim 2 , the crystal growth modifier composition comprising 98-100 percent by weight of the crude corn oil component. 4. The liquor crystallization composition of claim 2 , wherein the crystal growth modifier composition consists essentially of the crude corn oil component and the carrier liquid, wherein the hydrocarbon liquid is a hydrocarbon oil comprising aliphatic or aromatic oil compounds chosen from the group consisting of paraffinic oils, naphthenic oils, mixed paraffinic and aromatic oils, the residue of C 10 alcohol distillation, and mixtures thereof. 5. The liquor crystallization composition of claim 1 , wherein the crystal growth modifier composition comprises the biodiesel component, the biodiesel component comprising 90 percent by weight or more C 16 , C 18 or C 22 methyl esters and 0-2 percent by weight free fatty acids. 6. The liquor crystallization composition of claim 5 , wherein the crystal growth modifier composition comprises 98-100 percent by weight of the biodiesel component. 7. The liquor crystallization composition of claim 5 , wherein the crystal growth modifier composition consists essentially of the biodiesel component and the carrier liquid, wherein the hydrocarbon liquid is a hydrocarbon oil comprising aliphatic or aromatic oil compounds chosen from the group consisting of paraffinic oils, naphthenic oils, mixed paraffinic and aromatic oils, the residue of C 10 alcohol distillation, and mixtures thereof. 8. The liquor crystallization composition of claim 1 , wherein the crystal growth modifier composition comprises the mixture of the crude corn oil component and the biodiesel component, the crude corn oil component comprising 80 percent by weight or more weight mono alkyl esters including C 16 and C 18 ethyl esters, diglycerol esters and triglycerol esters of long chain fatty acids; and 0-15 percent by weight free fatty acids; and the biodiesel comprising 90 percent by weight or more C 16 , C 18 , or C 22 methyl esters and 0-2 percent by weight free fatty acids. 9. The liquor crystallization composition of claim 8 , wherein the crystal growth modifier composition consists essentially of the mixture of the biodiesel component and the crude corn oil component. 10. The liquor crystallization composition of claim 8 , wherein the crystal growth modifier composition consists essentially of the mixture of the biodiesel component and the crude corn oil component and the carrier liquid, wherein the hydrocarbon liquid is a hydrocarbon oil comprising aliphatic or aromatic oil compounds chosen from the group consisting of paraffinic oils, naphthenic oils, mixed paraffinic and aromatic oils, the residue of C 10 alcohol distillation, and mixtures thereof. 11. The liquor crystallization composition of claim 1 , the crystal growth modifier composition comprising 40-100 percent by weight of the crude corn oil component, the biodiesel component or the mixture of the crude corn oil component and the biodiesel component, wherein the mixture of the crude corn oil component and the biodiesel component is 10-90 percent by weight of the crude corn oil component and 10-90 percent by weight of the biodiesel component; and 0-60 percent by weight of the carrier liquid, such that, when an amount of the crystal growth modifier composition is added to the precipitation liquor of a crystallization process, ethyl esters, diglycerol esters, triglycerol esters and methyl esters of the crude corn oil component, the biodiesel component or the mixture of the crude corn oil component and the biodiesel component are hydrolyzed in the precipitation liquor to form fatty acids and particle size distribution of aluminum hydroxide crystals shift so that resulting crystals have a reduced formation of product fines. 12. The liquor crystallization composition of claim 1 , wherein the amount of the crystal growth modifier composition is from about 0.01 to about 400 mg/liter of the precipitation liquor. 13. The liquor crystallization composition of claim 12 , wherein the amount of the crystal growth modifier composition is from about 0.05 to about 200 mg/liter of the precipitation liquor. 14. The liquor crystallization composition of claim 13 , wherein the amount of the crystal growth modifier composition is from about 10 to about 40 mg/liter of the precipitation liquor. 15. The liquor crystallization composition of claim 1 , wherein the precipitation liquor comprises aluminum hydroxide, and wherein the amount of the crystal growth modifier composition is from about 0.01 to about 30 mg/m 2 of the seed area of the aluminum hydroxide. 16. The liquor crystallization composition of claim 15 , wherein the amount of the crystal growth modifier composition is from about 0.1 to about 15 mg/m 2 of the seed area of the aluminum hydroxide. 17. The liquor crystallization composition of claim 16 , wherein the amount of the crystal growth modifier composition is from about 1 to about 3 mg/m2 of the seed area of the aluminum hydroxide.