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Synthesis of crystalline aluminosilicate
in previous issues, a selection of the more interesting patents that have been published recently is given below under the headings: synthesis, catalysis, separation processes, detergents and miscellaneous applications. As
J.A. Barton
Novel
et al. 4, 1986;
Fr. Appl.
May
28,
Synthesis
of zeolite
E. W. Valyocsik Mobil Oil Corp. U.S.4.639.360, Jan.
1985
5, 1987;
Appl.
Aug.
26,
1985
1987;
Appl.
Oct.
28,
uniform,
finely divided
P. Knop; B. Nell; W. VEB Chemiekombinat E. Ger. 238,605, Aug. fine
zeolites
having
1985
of ZSM-5
H. Takasaki; T. Maruoka; Shikoku Chemicals Corp. Jpn Kokai Tokkyo Koho 1985
using
an
26,
crystallization alkyl phenols
teolite
in and
from
the presence ethoxylated
of and
humus
K. Shiba 86,295,224,
Dec.
26,
1986;
Appl.
June
T. R. Cannan Union Carbide PCT Int. Appl.
zeolite
20,
1986
M = ions
of
ZSM-5 Co. Appl.
Ltd. Jul.
15, 1985
of crystalline
aluminosilicate
S. Asaoka; H. Kudo; R. Endo et a/ Chiyoda Chemical Engineering and Construction Jpn Kokai Tokkyo Koho 87,17,014, Jan. 26,1987;
Co. Appl.
Ltd. July
12, 1985
Crystalline aluminosilicates are manufactured by hydrothermal synthesis of an aqueous mixture containing SiOz, A1203, alkali metal salts and choline compounds at conditions in which the choline compounds do not decompose or evaporate. A small portion of the product containing aluminosilicate crystals is recycled as crystallization seeds in the synthesis.
Synthesis
of crystalline
S. Kai Asahi Chemical Industry Jpn Kokai Tokkyo Koho Crystalline pared from A1203 source the presence
aluminosilicate
Co. Ltd. 87.36.017,
Feb.
17, 1987;
Appl.
Aug.
6, 1985
aluminosilicate useful as high-activity catalyst is prean aqueous mixture containing Si02 source material, material and alkali metal source material by heating in of > = l.of lower alkyl urea and lower alkyl thiourea.
U-202 Crystalline
Corp. 87,00,158,
Jan.
15,
1987;
U.S.
Appl.
July
8, 1985
Crystalline omega-type synthetic zeolites, i.e. U-202, characterized by their X-ray diffraction pattern have a composition: (1.0 f 0.5) Mu,0.A1203.xSi02.yH20, where M = > 1 of H, NH4, alkali metal, alkaline earth metal, transition metal, or rare earth lanthanide metal cation; n = valence of M; x = 3-20; y = O-20. A method for the preparation of the zeolites is described.
ZEOLITES,
Mar.
24,
Humus (humic acid, fulvic acid, humine, nitrohumic acid), which is obtained from organic soil or coal, is mixed with SiO+ontaining material, A1203-containing material, alkali metal oxide and water, and treated to give ZSM-5 zeolite. The reaction mixture contains 60-97 water and 0.001-10 wt.% humus, and mol ratios of Si02:A1203 > = 8, and Mu,O:SiOz 0.01-0.35 (M = alkali or alkaline earth metal ion, n = valence of M).
Crystalline
Appl.
Highly crystalline ZSM-5 zeolites are manufactured by hydrothermal synthesis of an aqueous mixture containing SiOz, A1203 and alkali metal salts and not containing any organic additives. A small amount of the product crystals is recycled as crystallization seeds in the synthesis of further crystals but having a different SiOz/A1203 ratio from that of the seeds.
Synthesis
1985
a composition:
PWN~.~~.dG03. (SiOh-3.0 are prepared by hydrothermal 1,3-butyleneglycol, ethoxylated sulphonated cocoa fatty acid.
Manufacture
June
of zeolite
S. Asaoka; H. Kudo; R. Endo et al. Chiyoda Chemical Engineering and Construcrion Jpn Kokai Tokkyo Koho 87.17.015, Jan. 26, 1987;
zeolites
Roscher et al. Bitterfeld 27, 1986; Appl.
zeolite
T. Maejima; Y. Tagaya et a/. Kogyo K.K. Tokkyo Koho 87,03,014, Jan. 9, 1987;
Manufacture
High-SiOz ZSM-5 zeolite is prepared hydrothermally organic sulphonic acid, e.g., N-2-hydroxyethylpiperazine-N-2ethanesulphonic acid, as the anionic templating agent.
86
Mar.
The novel zeolite has a composition: (0.8-l.S)Mz,O.A1203. (10-lOOISiO2. (WO)H20 (where group I and group II, and n = the valence of the ion), and a given range of interplanar spacing.
EM-5
27,
crystalline
S. Sakurada; Toa Nenryo Jpn Kokai
Zeolitic borosilicates of the pentasil type having a composition: (&1)Mu,0:B203:xSi02 (M = cation of valence n; x = 20-1000) also containing F, are prepared hydrothermally from a reaction mixture of pH < 10.5, containing water, a Si02 source, a B203 source, a mobilizing agent containing F- ions, and a structuring agent selected from Pr4N+ and Pr4P+.
Uniformly
EM-5 T. Blumenthal
zeolites
J. L. Guth; H. Kessler; R. Wey lnstitut Fraryais du Petrole PCT Int. Appl. 86,07,045, Dec.
Highly
of zeolite
Hydrothermal synthesis of zeolite ZSM-5 is carried out without the use of an organic templating agent by adding an acid and an acid aluminium salt to the reaction mixture after the onset of crystallization. The added Al compound may act as an inorganic template. The resulting zeolite has exceptionally high Si content.
SYNTHESIS Borosilicate
Synthesis
l-l. P. Rieck; M. Schott; Hoechst A.-G. Ger. Offen. 3,530,404,
1988, Vol8,
January
aluminosilicate
B. Yamada; Y. Noguchi; Toray Industries Inc. Jpn Kokai Tokkyo Koho
zeolite
M. Kimura 87,36,018,
Feb.
17,1987;
Appl.
Aug.
9, 1985
Crystalline aluminosilicate zeolite is prepared from an aqueous reaction mixture containing a SiOp source, an A1203 source, an alkali metal source and poly(oxyalkylene)diamine (av.mol.wt. lOO-10,000) having a general formula H2N(CH*),0Z,(CH2),NH2 (Z = poly(oxyalkylene) group, n = 1, 2, or 3, m = integer).
J.A. Barton
Novel
et al. 4, 1986;
Fr. Appl.
May
28,
Synthesis
of zeolite
E. W. Valyocsik Mobil Oil Corp. U.S.4.639.360, Jan.
1985
5, 1987;
Appl.
Aug.
26,
1985
1987;
Appl.
Oct.
28,
uniform,
finely divided
P. Knop; B. Nell; W. VEB Chemiekombinat E. Ger. 238,605, Aug. fine
zeolites
having
1985
of ZSM-5
H. Takasaki; T. Maruoka; Shikoku Chemicals Corp. Jpn Kokai Tokkyo Koho 1985
using
an
26,
crystallization alkyl phenols
teolite
in and
from
the presence ethoxylated
of and
humus
K. Shiba 86,295,224,
Dec.
26,
1986;
Appl.
June
T. R. Cannan Union Carbide PCT Int. Appl.
zeolite
20,
1986
M = ions
of
ZSM-5 Co. Appl.
Ltd. Jul.
15, 1985
of crystalline
aluminosilicate
S. Asaoka; H. Kudo; R. Endo et a/ Chiyoda Chemical Engineering and Construction Jpn Kokai Tokkyo Koho 87,17,014, Jan. 26,1987;
Co. Appl.
Ltd. July
12, 1985
Crystalline aluminosilicates are manufactured by hydrothermal synthesis of an aqueous mixture containing SiOz, A1203, alkali metal salts and choline compounds at conditions in which the choline compounds do not decompose or evaporate. A small portion of the product containing aluminosilicate crystals is recycled as crystallization seeds in the synthesis.
Synthesis
of crystalline
S. Kai Asahi Chemical Industry Jpn Kokai Tokkyo Koho Crystalline pared from A1203 source the presence
aluminosilicate
Co. Ltd. 87.36.017,
Feb.
17, 1987;
Appl.
Aug.
6, 1985
aluminosilicate useful as high-activity catalyst is prean aqueous mixture containing Si02 source material, material and alkali metal source material by heating in of > = l.of lower alkyl urea and lower alkyl thiourea.
U-202 Crystalline
Corp. 87,00,158,
Jan.
15,
1987;
U.S.
Appl.
July
8, 1985
Crystalline omega-type synthetic zeolites, i.e. U-202, characterized by their X-ray diffraction pattern have a composition: (1.0 f 0.5) Mu,0.A1203.xSi02.yH20, where M = > 1 of H, NH4, alkali metal, alkaline earth metal, transition metal, or rare earth lanthanide metal cation; n = valence of M; x = 3-20; y = O-20. A method for the preparation of the zeolites is described.
ZEOLITES,
Mar.
24,
Humus (humic acid, fulvic acid, humine, nitrohumic acid), which is obtained from organic soil or coal, is mixed with SiO+ontaining material, A1203-containing material, alkali metal oxide and water, and treated to give ZSM-5 zeolite. The reaction mixture contains 60-97 water and 0.001-10 wt.% humus, and mol ratios of Si02:A1203 > = 8, and Mu,O:SiOz 0.01-0.35 (M = alkali or alkaline earth metal ion, n = valence of M).
Crystalline
Appl.
Highly crystalline ZSM-5 zeolites are manufactured by hydrothermal synthesis of an aqueous mixture containing SiOz, A1203 and alkali metal salts and not containing any organic additives. A small amount of the product crystals is recycled as crystallization seeds in the synthesis of further crystals but having a different SiOz/A1203 ratio from that of the seeds.
Synthesis
1985
a composition:
PWN~.~~.dG03. (SiOh-3.0 are prepared by hydrothermal 1,3-butyleneglycol, ethoxylated sulphonated cocoa fatty acid.
Manufacture
June
of zeolite
S. Asaoka; H. Kudo; R. Endo et al. Chiyoda Chemical Engineering and Construcrion Jpn Kokai Tokkyo Koho 87.17.015, Jan. 26, 1987;
zeolites
Roscher et al. Bitterfeld 27, 1986; Appl.
zeolite
T. Maejima; Y. Tagaya et a/. Kogyo K.K. Tokkyo Koho 87,03,014, Jan. 9, 1987;
Manufacture
High-SiOz ZSM-5 zeolite is prepared hydrothermally organic sulphonic acid, e.g., N-2-hydroxyethylpiperazine-N-2ethanesulphonic acid, as the anionic templating agent.
86
Mar.
The novel zeolite has a composition: (0.8-l.S)Mz,O.A1203. (10-lOOISiO2. (WO)H20 (where group I and group II, and n = the valence of the ion), and a given range of interplanar spacing.
EM-5
27,
crystalline
S. Sakurada; Toa Nenryo Jpn Kokai
Zeolitic borosilicates of the pentasil type having a composition: (&1)Mu,0:B203:xSi02 (M = cation of valence n; x = 20-1000) also containing F, are prepared hydrothermally from a reaction mixture of pH < 10.5, containing water, a Si02 source, a B203 source, a mobilizing agent containing F- ions, and a structuring agent selected from Pr4N+ and Pr4P+.
Uniformly
EM-5 T. Blumenthal
zeolites
J. L. Guth; H. Kessler; R. Wey lnstitut Fraryais du Petrole PCT Int. Appl. 86,07,045, Dec.
Highly
of zeolite
Hydrothermal synthesis of zeolite ZSM-5 is carried out without the use of an organic templating agent by adding an acid and an acid aluminium salt to the reaction mixture after the onset of crystallization. The added Al compound may act as an inorganic template. The resulting zeolite has exceptionally high Si content.
SYNTHESIS Borosilicate
Synthesis
l-l. P. Rieck; M. Schott; Hoechst A.-G. Ger. Offen. 3,530,404,
1988, Vol8,
January
aluminosilicate
B. Yamada; Y. Noguchi; Toray Industries Inc. Jpn Kokai Tokkyo Koho
zeolite
M. Kimura 87,36,018,
Feb.
17,1987;
Appl.
Aug.
9, 1985
Crystalline aluminosilicate zeolite is prepared from an aqueous reaction mixture containing a SiOp source, an A1203 source, an alkali metal source and poly(oxyalkylene)diamine (av.mol.wt. lOO-10,000) having a general formula H2N(CH*),0Z,(CH2),NH2 (Z = poly(oxyalkylene) group, n = 1, 2, or 3, m = integer).