Zeolite catalysts, methods for producing zeolite catalysts, and methods for producing lower olefins

The invention claimed is: 1. Zeolite catalysts for producing lower olefins having 2 to 4 carbon atoms from hydrocarbon feedstocks with low boiling points having a range of boiling points from 35° C. to 200° C., comprising MFI-type crystalline aluminosilicates containing iron atoms and gallium atoms, the zeolite catalysts having molar ratios of iron atoms to total moles of iron atoms, gallium atoms, and aluminum atoms in the range from 0.2 to 0.6, and the zeolite catalysts having molar ratios of gallium atoms to total moles of iron atoms, gallium atoms, and aluminum atoms in the range from 0.1 to 0.4. 2. The zeolite catalysts according to claim 1 , which are for use in the production of lower olefins from the hydrocarbon feedstocks with low boiling points diluted with inert gas and/or steam, the zeolite catalysts having acid densities, defined as molar ratios of silicon atoms to total moles of iron atoms, gallium atoms, and aluminum atoms, in the range from 12.0 to 40.0. 3. The zeolite catalysts according to claim 1 , which are for use in the production of lower olefins from the hydrocarbon feedstocks with low boiling points which are not diluted, the zeolite catalysts having acid densities, defined as molar ratios of silicon atoms to total moles of iron atoms, gallium atoms, and aluminum atoms, in the range from 75.0 to 200.0. 4. Methods for producing the zeolite catalysts according to claim 1 , comprising a series of processes including a hydrothermal synthesis step, a molding step, and an ion-exchange step, wherein the hydrothermal synthesis step includes synthesizing secondary particles with average sizes in the range from 0.25 μm to 1.0 μm. 5. Methods for producing the zeolite catalysts according to claim 1 , comprising a series of processes including a hydrothermal synthesis step, a molding step, and an ion-exchange step, wherein the ion exchange-step is performed after the molding step. 6. Methods for producing lower olefins from hydrocarbon feedstocks with low boiling points using the zeolite catalysts according to claim 1 , comprising: performing reactions to produce the lower olefins from the hydrocarbon feedstocks with low boiling points in the presence of the zeolite catalysts in reaction temperature range from 525° C. to 575° C.