SECTION I - CLASS DEFINITION
This class provides for (1) a mixture of
materials intended to catalyze a reaction or to sorb a component
of a fluid or (2) certain single materials specifically
structured to catalyze a reaction or sorb a component.
In this class, many subclasses are based on the groupings
of elements in the periodic chart. Below are listed elements
in the group as used in the class.
Group I metals: Lithium(Li), Sodium(Na), Potassium(K), Rubidium(Rb), Cesium(Ca), Francium(Fr), Copper(Cu), Silver(Ag), and
Gold(Au)
Group II metals: Beryllium(Be), Magnesium(Mg), Calcium(Ca), Strontium(Sr), Barium(Ba), Radium(Ra), Zinc(Zn), Cadmium(Cd), and
Mercury(Hg)
Group III: Scandium(Sc), Ttrium(Y), Aluminum(Al), Gallium(Ga), Indium(In), and
Thallium(Tl)*
Group IV: Titanium(Ti), Zirconium(Zr), Hafnium(Hf), Germanium(Ge), Tin(Sn), and
Lead(Pd)
Group V metals: Vanadium(V), Niobium(Nb), Tantalum(Ta), Arsenic(As), Antimony(Sb), and
Bismuth(Bi)
Group VI metals: Chromium(Cr), Molybdenum(Mo), Wolfram(W), Tungsten(T), and
Polonium(Po)
Group VII metals: Manganese(Mn), Technetium(To), and
Rhenium(Re)
Group VIII: Iron group metals, Iron(Fe), Cobalt(Co), Nickel(Ni), and
the platinum group metals, Ruthenium(Ru), Rhodium(Rh), Palladium(Pd), Osmium(Os), Iridium(In), and
Platinum(Pt)
Lanthanides: Elements with atomic numbers 57-71 inclusive, Lanthanum(La), Cerium(Ce), Praseodymium(Pr), Neodymium(Nd), Promethium(Pm), Samarium(Sm), Europium(Eu), Gadolinium(Gd), Terbium(Tb), Dysprosium(Dy), Holmium(Ho), Erbium(Er), Thulium(Th), Ytterbium(Yb), and
Lutetium(Lu)
Alkaline earth metals: Calcium(Ca), Strontium(Sr), Barium(Ba), and
Radium(Ra)
Alkali metals: Lithium(Li), Sodium(Na), Potassium(K), Rubidium(Rb), Cesium(Cs), and
Francium(Fr)
Actinides: Elements with atomic numbers 89 and above inclusive, Actinium(Ac), Thorium(Th), Protactinium(Pa), Uranium(U), Neptunium(Np), Plutonium(Pu), Americium(Am), Curium(Cm), Berkelium(Bk), Californium(Cf), Einsteinium(Es), Fermium(Fm), Mendelevium(Md), Nobelium(No), Lawrencium(Lr)*
Halogens: Fluorine(F), Chlorine(Cl), Bromine(Br) Iodine(I), and
Astatine(At)
Lithium(Li), Sodium(Na), Potassium(K), Rubidium(Rb), Cesium(Cs), and
Francium(Fr)
Rare earth: Scandium(Sc), Yttrium(Y), and
Lanthanide group
* La is grouped with the Lanthanides and Ac with
the Actinides.
SECTION II - NOTES TO THE CLASS DEFINITION
| | (1)
Note. Except as indicated in the title and definition, the
subclasses in this class provide for both a product and a process
of making the product. |
SECTION III - LINES WITH OTHER CLASSES AND WITHIN THIS CLASS
Lines Within This Class
In this schedule some subclasses, namely 6, 8+, 104+ and
151 provide for methods only and a claim to a product must be classified
in another subclass, while other subclasses, e.g., 11+, 20+, and
418+ although developed on a process theme, provide
also for the products of the process. Except for those
situations in which a subclass for a specific process is provided, a
method of making a composition of this class is classified with
the composition, per se.
Lines With Other Classes
(1) Classes directed to element or compound
Superiority is dependent on comprehensiveness. A
patent claiming a new compound and a composition of this class including
such compound is placed here as an original and cross referenced
to the compound class. A patent claiming a new compound
or process of making it, and a composition of this class
which is used in making the compound is placed in the compound class
as an original and cross-referenced here.
(2) Chemical Composition Placement
The rules for determining Class placement of the Original
Reference (OR) for claimed chemical compositions are
set forth in the Class Definition of Class 252 in the section LINES
WITH OTHER CLASSES AND WITHIN THIS CLASS, subsection COMPOSITION CLASS
SUPERIORITY, which includes a hierarchical ORDER OF SUPERIORITY
FOR COMPOSITION CLASSES.
References to Other Classes, below, are
directed to the following: Classes Providing for Related
Matter; or Classes Which May Have Catalytic or Sorbent
Functions.
SECTION IV - REFERENCES TO OTHER CLASSES
SEE OR SEARCH CLASS:
| 8, | Bleaching and Dyeing; Fluid Treatment
and Chemical Modification of Textiles and Fibers, for a process of dyeing, bleaching or cleaning
a textile which may utilize a catalyst or sorbent. (Class
Providing for Related Matter.) |
| 44, | Fuel and Related Compositions, for a composition designed to initiate or sustain
a flame and which may include a catalyst or sorbent. (Class Providing
for Related Matter.) |
| 73, | Measuring and Testing,
subclasses 23.2+ for gas analysis by use of a sorbent. (Class
Which May Have Catalytic or Sorbent Functions.) |
| 95, | Gas Separation: Processes,
subclasses 90+ for processes of gas separation using solid sorbents. Class
95 will take the combination of gas separation using a solid sorbent
and regenerating the solid sorbent. (Class Providing
for Related Matter.) |
| 96, | Gas Separation: Apparatus,
subclasses 108+ for solid sorbent apparatus for gas separation. Class
502 will take zeolite or other solid sorbent compositions having
details of the physical characteristics of the composition itself (e.g., porosity, particle
size, etc.). Class 502 will
also take zeolite or other solid sorbent compositions that are layered, laminated, or otherwise
affixed to another zeolite or other solid sorbent composition or
to a support material. Class 96 takes apparatus having (a) an inlet
for the fluid mixture to be treated, (b) a means
effective to cause separation into constituent parts, and (c) an
outlet for at least one constituent separate and distinct from an
outlet for another constituent or a single outlet used at different
times to remove the separated constituents. The means causing
separation into constituent parts confines the zeolite or other
solid sorbent composition inside an enclosure that contains the
fluid mixture being separated. Class 96 also takes filter
elements having zeolite or other solid sorbent compositions held
in an open structure or rim that encases, holds, or borders
the zeolite or other solid sorbent composition or held on a skeletal
structure. (Class Providing for Related Matter.) |
| 119, | Animal Husbandry, particularly
subclasses 171+ for material used for absorbing moisture from an
animal waste product, i.e., excrement or
urine. (Class Providing for Related Matter.) |
| 127, | Sugar, Starch, and Carbohydrates, for a process using a sorbent in refining. (Class
Providing for Related Matter.) |
| 149, | Explosive and Thermic Compositions or Charges, for a composition of that class which may include
a catalyst or sorbent. (Class Providing for Related
Matter.) |
| 201, | Distillation: Processes Thermolytic, for a process producing char or a carbon residue
which may have catalytic or sorbent properties. (Class Providing
for Related Matter.) |
| 204, | Chemistry: Electrical and Wave Energy, for an electrode of that class which may be catalytic or
a process of treating an electrolyte of that class which may include
sorbing. (Class Providing for Related Matter.) |
| 206, | Special Receptacles or Package,
subclass 0.7 and 204 for a container of that class including
a sorbent. (Class Which May Have Catalytic or Sorbent
Functions.) |
| 208, | Mineral Oils: Processes and Products, for a process which may employ a catalyst or sorbent
in treating petroleum. (Class Providing for Related
Matter.) |
| 210, | Liquid Purification or Separation, for a process which may utilize a catalyst or sorbent
in treating water or liquids in general. (Class
Providing for Related Matter.) |
| 252, | Compositions, for a composition of general or of some specific
utilities and the relative position of this class (502) with
the various uses and functions provided for in that class. (Class Providing
for Related Matter.) |
| 260, | Chemistry of Carbon Compounds, (or the 520 and 530-570 series
of classes incorporated therein) for either an organic
compound which may be used as a catalyst or sorbent or a process
using a catalyst or sorbent in making or purifying an organic compound. (Class
Providing for Related Matter.) |
| 420, | Alloys or Metallic Compositions,
subclass 900 for an alloy which may sorb hydrogen. (Class Which
May Have Catalytic or Sorbent Functions.) |
| 422, | Chemical Apparatus and Process Disinfecting, Deodorizing, Preserving, or
Sterilizing,
subclasses 30 , 69+, 88+, 122, 177+, 631-638, 211+, and
312 for a process using, or apparatus including, a
catalyst or sorbent. (Class Which May Have Catalytic
or Sorbent Functions) |
| 423, | Chemistry of Inorganic Compounds, Digest 13 and 16 for specific techniques which may
be useful in using or regenerating a catalyst or sorbent. (Class
Which May Have Catalytic or Sorbent Functions.) |
| 423, | Chemistry of Inorganic Compounds, for either an inorganic compound which may be used as a
catalyst or sorbent and especially
subclasses 700+ for a zeolite or a process using a catalyst to
make an inorganic compound. (Class Providing for
Related Matter.) |
| 426, | Food or Edible Material: Processes, Compositions, and
Products, for a food which may include a sorbent. (Class
Providing for Related Matter.) |
| 430, | Radiation Imagery Chemistry: Process, Compositions, or
Product Thereof, for a light sensitive composition which may include
a catalyst. (Class Providing for Related Matter.) |
| 435, | Chemistry Molecular Biology and Microbiology, for an enzyme or a method using an enzyme. (Class
Providing for Related Matter.) |
| 436, | Chemistry: Analytical and Immunological Testing, appropriate subclasses for chemical analysis or
testing processes involving the use of a sorbent. (Class
Which May Have Catalytic or Sorbent Functions.) |
| 506, | Combinatorial Chemistry Technology: Method, Library, Apparatus, for a catalyst library or a method of making said
library. |
| 518, | Chemistry: Fischer-Tropsch Processes; or
Purification or Recovery of Products Thereof, for a process of that class using a catalyst and see especially
subclass 701 , 707, 709, 713, to
721 and subclass 722 for a process using a sorbent. (Class
Providing for Related Matter.) |
| 585, | Chemistry of Hydrocarbon Compounds, for a process in which a catalyst or sorbent may
be used to produce a hydrocarbon. (Class Providing
for Related Matter.) |
SECTION V - GLOSSARY
SYNONYMS OF THE ELEMENTS
Alabamine = astatine, Aldebaranium = ytterbium
Argentum = silver, Aurum = gold
Austrium = impure gallium, Cassiopeium = Iutecium
Celtium = lutecium, Columbium = niobium
Demonium = dysprosium, Deuterium = hydrogen
Didymium = neodymium and praseodymium
Dwi-manganese = rheniu, Eka-aluminum = gallium
Eka-boron = scandium, Eka-cesium = virginium
Eka-iodine = alabamine, Eka-manganese = masurium
Eka-silicon = germanium, Eka-tantalum= protactinium
Erythronium= vanadium, Ferrum = iron
Florentium = illinium, Glucinum = beryllium
Hydrargyrum = mercury, Illinium = promethium
Kalium = potassium, Masurium = technetium
Natrium = sodium, Neoytterbium = ytterbium
Niobium = Columbium, Niton = radon
Plumbum = lead, Radium emanation = radon
Stannum = tin, Stibium = antimony
Tritiumum = hydrogen, Virginium = francium
Wolfram = tungsten
The meaning to be given to the various "art" terms appearing
in this class, but which have not been included in the
glossary below, is the same as that generally accepted
or in common usage. However, certain terms employed
in this class, which are included below, have
been assigned definitions tailored to meet the needs of this class
and therefore those may be more restricted or less limited or even
altogether different from those in common usage.
ACTIVATED
The state or condition of a material which has been treated
or acted upon to enable it to function as intended. In
general a change is effected which is discernible often only in
the ability to perform such function. For instance, activated
charcoal.
ACTIVE CARBON
Sorbent form compressing carbon with either additive or
porous structure enhancing sorbability.
ANIMAL CHARCOAL
See Bone Black
BONE BLACK
Solid residue from chafing bones - @10%carbon, 80% Ca3(PO4), used
particularly in decolorizing sugar solutions.
CATALYST
An agent which affects or effects a chemical reaction
by its presence in the reaction mass (other than by dissolving
or dispersing the reactants) generally being recoverable
from the products as if it did not enter into the reaction and merely
provided the impetus for reaction of other materials. While
it was originally thought that a catalyst did not enter the reaction
and instead provided sites at which the reactants, per
se, interacted, it is understood now that at least
some transitory intermediates may involve the catalyst. The
catalyst, however does not contribute substance to the
desired final product even though it may remain inseparable from
such product.
CATALYZE
Affecting, effecting, promoting, or
initiating a reaction by being present-generally by presenting
a contact surface and usually recoverable from the product in essentially
unchanged form and operating other than by merely acting as a solvent. The
strict classical concept of a catalyst is not rigidly adhered to
now and the catalyst may disappear, change or be included
as an incidental moiety in the final product. A catalyst
may inhibit one reaction while promoting or allowing another reaction
but an agent strictly preventing or retarding a reaction is a preservative
for Class 252 Compositions, subclasses 380+. Examples
of these retardants or inhibitors are anti-oxidant and
anti-knock compositions. An agent that encourages
a reaction by dispersing the reactants such as a more effective
solvent is not a catalyst. A catalyst may be gaseous, liquid
or solid.
CHAR
Carbonaceous reside from pyrolysis of organic material generally
of a hard burned pitch appearance.
CLAY
A naturally occurring hydrated aluminum silicate originally
derived from the earth, having physical properties due
at least in part to the size and distribution of colloidal particles, and
properties including plasticity. Thirty or more percent
of the particles are under 0.002 mm in diameter.
| | (1)
Note. The use of the term clay in a document is considered
to meet the above definition. |
| | (2)
Note. Terms recognized as clay: attapulgite, bentonite, fuller"s
earth, halloysite, illite kaolin, montmorillonite, mullite. |
| | (3)
Note. Some earthy silicon compounds that are not clay or zeolite include Asbestos, Diaspore, Diatomaceous
earth, Diatomite, Feldspar, Guhr, Kieselgahr, Mica, Quartz, Sand, and
Silica. |
METAL
An element that is not designated a nonmetal as listed infra. Nonmetals
are H, B, C, Si, N, P, O, S, Se, Te, Halogens (F, Cl, Br, I, At,) and
noble gases (He, Ne, Ar, Kr, Xe, Rn). The
various types or groups of metals are as set out at the beginning
of the schedule.
ORGANIC
A compound in which carbon is bonded to (1) a
second carbon; (2) at least one atom
of hydrogen or halogen; or (3) nitrogen
by a single or double bond; except cyanic and (HOCN) cyanogen (NCCN), cyanamide (H2NCN), cyanogen
halide (HalCN), hydrocyanic acid (HCN) isocyanic
acid (HNCO) fulminic acid (HCNO) and
metal carbides (MeCCMe). See class definition
of Class 260.
SORB
The attracting and holding of a constituent of a contacting
fluid, on the surface, within pores, or
throughout its mass by a material of solid character. The
sorbing is often selective, preferentially attracting a
component and not attracting another but it may apply to a complete fluid. The
sorbent may comprise a solid impregnated with a normally liquid
material in which the mixture has a solid property but does not
encompass a solution of a solid in a liquid.
SPECIFICALLY STRUCTURED
Having shape or size designed or calculated to increase the
catalysis or sorbency of a material, generally by presenting
a greater surface area per unit volume or a pore size of critical
dimensions. Examples of specifically structured single
materials are Raney nickel and activated carbon. Since
porosity and specific pore size are inherent in zeolites, critical
dimensions of the pores of a Zeolite alone are not considered to
constitute specific structure.
ZEOLITE
A hydrous alumino silicate characterized by a three dimensional
framework of Si04 and Al04 tetrahedra, cross-linked
by the sharing of oxygen atoms being chemically balanced by a cation, usually
sodium or calcium and of crystalline structure such that openings
or pores allow access to a relatively large absorption area inside
the crystal. The cation may be ion exchanged for other
metal ions, ammonia, an amine or hydrogen. Zeolites
may be activated for sorption by driving off the water of hydration.
| | (1)
Note. Terms Recognized as being Zeolite include Analcite, Cancrinite, Chabazite, Clinotilolite, Cordierite, Edingtonite, Erionite, Faujasite, Ferrierite, Gmelinite, Heulandite, Laumontite, Levynite, Mesolite, Mordenite, Natrolite, Offretite, Paulingite, Phillipsite, Ptilolite, Scolecite, Thomsonite, ZSM, and
ZK. |
| | (2)
Note. See the list in (3) Note
of the definition of Clay, supra, for some silicon
compounds not treated as clays or zeolites in this class (502). |
SUBCLASSES
![[List of Patents for class 502 subclass 1]](../ps.gif) 1 | HAVING FOREIGN OR DIVERSE FUNCTION (E.G., PREVENT CORROSION, ETC.): |
| | This subclass is indented under the class definition. Composition having utility in addition to catalysis or sorbency.
| | (1)
Note. The diverse function may comprehend myriad uses, e.g.,
impart color, etc., but a claimed function provided for in Class
252, Compositions in the schedule higher than subclass 478 is superior
and will govern classification. |
| | (2)
Note. Some wick compositions may be classified here on the
basis of a heat conductivity in addition to sorbency, but the bulk
of wick compositions are classified in subclasses 400+. |
| | (3)
Note. A composition intended to function as an ignitor by
catalytic and incandescing action is proper for this subclass. |
SEE OR SEARCH CLASS:
| 252, | Compositions,
subclass 1 for a generically claimed composition having several
disclosed uses and the appropriate subclass for a composition having
a claimed utility provided for in that class schedule down to subclass 194,
inclusive. The rules for determining Class placement of the Original Reference
(OR) for claimed chemical compositions are set forth in the Class Definition
of Class 252 in the section LINES WITH OTHER CLASSES AND WITHIN
THIS CLASS, subsection COMPOSITION CLASS SUPERIORITY, which includes
a hierarchical ORDER OF SUPERIORITY FOR COMPOSITION CLASSES. |
|
| | |
| 2 | With structure having utility in addition to support or
carrier: |
| | This subclass is indented under subclass 1. Composition having a shape or dimension serving a purpose
other than as a carrier for or to enhance the surface contact area
of catalytic or sorbent material.
| | (1)
Note. This subclass provides for a nominally claimed (a) self
cleaning oven wall or (b) exhaust muffler with catalytic activity. |
| | (2)
Note. The foreign or diverse function is usually provided
by the physical form of the composition in this subclass, while the
other function in subclass 1 is usually due to the chemical nature
of the composition. | |
| | |
| 3 | TO BE USED AS A MELT: |
| | This subclass is indented under the class definition. Composition intended to function in the liquid phase, and
which at standard temperature and pressure would be solid.
| | (1)
Note. To be classified here, a patent must include a claim
reciting the liquid phase, or molten feature. |
| | (2)
Note. A sorbent which would normally be solid at room temperature
but is claimed as a liquid or melt is classifiable here. | |
| | |
| 4 | IN FORM OF A MEMBRANE: |
| | This subclass is indented under the class definition. Composition claimed in terms designating a relatively thin,
flexible film.
SEE OR SEARCH CLASS:
| 210, | Liquid Purification or Separation,
subclass 500.21 for a membrane for treating liquids, in general,
and water, in particular, by selective diffusion therethrough of
components of the liquid. |
|
| | |
| 5 | IRRADIATION BY, OR APPLICATION OF, ELECTRICAL, MAGNETIC
OR WAVE ENERGY: |
| | This subclass is indented under the class definition. Process of preparing or perfecting a composition under the
... by subjecting it to a flow or current of electrons, a sonic,
magnetic, or electromotive field, or bombardment by sub atomic particles
or radiant energy (e.g., ion implantation, ultra sonic vibration,
actinic light, X-rays, etc.).
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 522, | for a cross-reference art collection of compositions
of this class, activated for use, by radiant energy. |
|
| | |
| 6 | CONTROL RESPONSIVE TO SENSED CONDITION: |
| | This subclass is indented under the class definition. Processes involving a process control which is responsive
to a sensed condition, (e.g., temperature, pressure, etc.).
| | (1)
Note. A process of regenerating a composition of this class
with automatic control of temperature is classifiable here. | |
| | |
| 7 | BIOSPECIFIC MATERIAL, OR PRODUCED BY ENZYME OR MICROORGANISM: |
| | This subclass is indented under the class definition. Composition peculiarly adapted to affect or bind a unique
or very narrow spectrum of biological material, or produced by a
living plant or animal of a size normally visible only through a
microscope.
| | (1)
Note. Microorganism includes bacterium, yeast, fungus, virus
and unicellular alga. |
| | (2)
Note. A composition in which a catalytic function is supplied
only by an enzyme is classifiable in Class 435, Chemistry: Molecular
Biology and Microbiology. |
SEE OR SEARCH CLASS:
| 435, | Chemistry: Molecular Biology and Microbiology, appropriate subclasses especially 183+, for an
enzyme (also known as a biological catalyst), per se, or a process
using an enzyme, and see the definition of that class (435) for
lines with other classes involving enzymes, and
subclass 815 for a cross-reference art collection for a process
of separating enzymes. |
|
| | |
| 8 | FORMING OR TREATING A SPHERE, PROCESS
ONLY: |
| | This subclass is indented under the class definition. Method in which catalytic, sorbent, or carrier material
is shaped as an orb or ball, or such material so shaped, is processed
to perfect it for a utility of this class.
| | (1)
Note. The material may be a catalyst precursor or a carrier,
per se, claimed or disclosed solely for use in a composition of this
class. |
| | (2)
Note. This and the indented subclass provide for process only,
and a claim to a sphere of a composition of this class must be classified
in this schedule on some other basis, generally being crossed down
to the appropriate class providing for the composition. | |
| | |
| 9 | Forming other than by liquid immersion: |
| | This subclass is indented under subclass 8. Method in which the spherical shape is imparted by solid
or gaseous means.
| | (1)
Note. Some examples of methods provided for in this subclass
are cutting, rolling, spraying, or atomizing, shot tower dropping,
etc. | |
| | |
| 10 | Treating preformed sphere only: |
| | This subclass is indented under subclass 8. Process in which a previously made sphere is subjected to
the action of an agent which perfects it for use as a catalyst or
sorbent.
| | (1)
Note. The agent may be chemical or physical. | |
| | |
| 11 | INCLUDING ION EXCHANGING, EXCEPT ZEOLITES OR
PRODUCT THEREOF: |
| | This subclass is indented under the class definition. Process in which a dissociably charged chemical moiety is
released by the composition and a different charged moiety of the
same polarity is captured, effecting a reversible chemical replacement
reaction.
| | (1)
Note. While an ion exchange process for a zeolite for this
class is not classifiable here, such a process involving a clay
is classifiable here. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 60+, | for a process of making a catalytic or sorbent zeolite
composition which may include an ion exchange step. |
SEE OR SEARCH CLASS:
| 252, | Compositions,
subclass 179 and 184 for an ion exchanging composition. |
| 521, | Synthetic Resins or Natural Rubbers,
subclass 25 for an ion exchange synthetic resin. |
|
| | |
| 12 | For regenerating or rehabilitating catalyst or sorbent: |
| | This subclass is indented under subclass 11. Process, , of treating a composition which has been in use,
to restore it to a state of intended function.
SEE OR SEARCH CLASS:
| 34, | Drying and Gas or Vapor Contact With Solids, for processes of regenerating catalysts or adsorbents
by drying only. |
| 201, | Distillation: Processes, Thermolytic, appropriate subclasses for a process of carbonizing
by thermolytic distillation. |
| 202, | Distillation: Apparatus, for apparatus for making or reactivating bone black and
other carbonaceous adsorbents by destructive distillation. |
| 208, | Mineral Oils: Processes and Products, for processes of converting or refining mineral
oils which also includes the steps of reactivating the catalyst
or adsorbent used in the process. |
|
| | |
| 20 | REGENERATING OR REHABILITATING CATALYST OR SORBENT: |
| | This subclass is indented under the class definition. Process of treating a composition , which has been in use,
to restore it to a state of intended function by (a) removing accumulated extraneous
material, (b) replacing a lost essential or perfecting component,
(c) rearranging disturbed elements into a former functionally useful
configuration, or (d) subjecting spent material to a force or environment
serving to make it again active for its intended function.
| | (1)
Note. A steam treatment which is claimed to activate spent
carbon sorbent is provided for in this or an indented subclass even
though there is no disclosure of removal of contaminant or addition
of material. |
| | (2)
Note. Combinations of regeneration or reactivation of an adsorbent
and the recovery of the adsorbed material are classified on the
basis of the material recovered. |
SEE OR SEARCH CLASS:
| 34, | Drying and Gas Vapor Contact With Solids, for processes of regenerating catalysts or adsorbents
by drying only. |
| 201, | Distillation: Processes, Thermolytic, appropriate subclasses for a process of carbonizing
by thermolytic distillation. |
| 202, | Distillation: Apparatus, for apparatus for making or reactivating bone black and
other carbonaceous adsorbents by destructive distillation. |
| 208, | Mineral oils: Processes and Products, for processes of converting or refining mineral
oils which also includes the steps of reactivating the catalyst
or adsorbent used in the process. |
|
| | |
| 21 | Including segregation of diverse particles: |
| | This subclass is indented under subclass 20. Process wherein components of the catalyst or sorbent are
separated on the basis of specific gravity, density, size, shape,
or other property of differing discrete small bodies of the composition.
| | (1)
Note. This subclass includes abrasion with segregation of
the catalyst or sorbent from abraded particles. It also includes
segregation of catalyst and foreign particles such as dust. |
| | (2)
Note. Flotation separation is an example of a process classifiable
here. |
SEE OR SEARCH CLASS:
| 209, | Classifying, Separating, and Assorting Solids, for methods of segregation of particles of general
utility. |
|
| | |
| 22 | Treating with a liquid or treating in a liquid phase, including
dissolved or suspended: |
| | This subclass is indented under subclass 20. Process in which the catalyst or sorbent is contacted with
a liquid or wherein treatment is effected in a liquid medium.
| | (1)
Note. In a liquid medium includes either dissolved or suspended
catalyst or sorbents. |
| | (2)
Note. The treating reagent is itself a liquid, is dissolved
or suspended in a liquid or is added to a catalyst or sorbent which is
dissolved or suspended in a liquid carrier, or is itself a liquid,
including molten. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 3, | for a catalyst which functions in a molten state. |
|
| | |
| 23 | "Wet air combustion" oxidation of material submerged
in liquid: |
| | This subclass is indented under subclass 22. Process in which the catalyst or sorbent is subjected to
dissolved oxygen under pressure and heat, below the critical temperature,
such that autogenic oxidation is effected.
| | (1)
Note. Generally undesired extraneous carbonaceous material
is converted to water and carbon oxides. |
| | (2)
Note. The process is also known by several terms such as "flameless
combustion", "submerged combustion",
etc. |
SEE OR SEARCH CLASS:
| 210, | Liquid Purification or Separation,
subclass 761 for a similar process in which liquid is treated
by oxidation of components in the liquid phase. |
|
| | |
| 24 | Including intended dissolution or precipitation of a substantial
amount of an ingredient of the ultimate composition: |
| | This subclass is indented under subclass 22. Process in which an essential component of the composition
is (1) dissolved in a solvent or by reaction, or (2) caused to come
out of solution in a solid phase, permitting separation from reaction
products and/or extraneous material or providing such component
in an effective form.
| | (1)
Note. The subject matter of this subclass requires an intentional
dissolution of a component of the composition and does not include
incidental etching of an active material during an acid treating
to clean the metal surface. |
| | (2)
Note. A process in which additional active material may be
added by precipitation is not proper for this subclass. The material
precipitated must have been present in the original catalyst composition,
though possibly in a different form. | |
| | |
| 25 | Using salt or alkaline substance: |
| | This subclass is indented under subclass 22. Process in which the material utilized is capable of supplying
a nonprotonic positive ion.
| | (1)
Note. The treating material of the subclass generally gives
a basic or neutral pH, but may include soaps (salts of carboxylic
acids) and acid salts (e.g., NaHSO4, CaHPO4). |
| | (2)
Note. The use of a base to neutralize a previous acid treatment
is provided for in this subclass. | |
| | |
| 27 | Using acid: |
| | This subclass is indented under subclass 22. Process in which a proton donor is utilized.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 35, | for a process using a halogen acid in the gaseous
state. |
|
| | |
| 28 | Organic: |
| | This subclass is indented under subclass 27. Process in which the acid contains carbon as set out in
the term "organic" in the glossary. |
| | |
| 29 | Organic liquid: |
| | This subclass is indented under subclass 22. Process in which the treating agent is a liquid carbon compound
as set out in the term organic in the glossary.
| | (1)
Note. The bulk of the disclosures in this subclass are directed
to solvent washing or extracting. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 21, | for a flotation separating of particles process
which may include an organic liquid. |
|
| | |
| 30 | And gas addition thereto: |
| | This subclass is indented under subclass 29. Process which includes the step of subjecting the composition
to the action of a gas.
| | (1)
Note. The gas treatment may be concurrent with the liquid
treatment. | |
| | |
| 31 | Hydrocarbon: |
| | This subclass is indented under subclass 29. Process in which the liquid used comprises a compound composed
of only hydrogen and carbon. |
| | |
| 33 | Oxygen containing: |
| | This subclass is indented under subclass 29. Process in which the organic material contains element number
8.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 28, | for a process utilizing an organic acid which may
contain oxygen. |
|
| | |
| 34 | Gas or vapor treating: |
| | This subclass is indented under subclass 20. Process in which the treating material is a readily diffusive
fluid, tending to expand indefinitely and with molecules in free
movement.
| | (1)
Note. This subclass provides for the use of normally liquid
material which becomes gaseous under the prevailing conditions (e.g.,
temperature above its boiling point). |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 30, | for the use of a gas in conjunction with an organic
liquid to regenerate a catalyst or sorbent. |
|
| | |
| 39 | And forming useful by-product: |
| | This subclass is indented under subclass 38. Process in which a second material or energy of value, apart
from the catalyst or sorbent composition is obtained.
| | (1)
Note. The by-product forming does not include recovering or
separating of a reaction product or a sorbed component resulting
from the process in which the composition of this class became spent. See
(2) Note of subclass 20. The by-product includes e.g., collected
carbon oxide gas from combustion of carbonaceous material fouling
a catalyst or heat of oxidation used to provide a source of power.
The use of heat generated in a process of rehabilitation to preheat
the treating agent, sorbent, or catalyst is not considered to be
forming a by-product. | |
| | |
| 40 | And adding heat by admixing solid heat carrier: |
| | This subclass is indented under subclass 38. Process in which a transfer of heat is effected by intimately
contacting the spent material and/or treating gas with
extraneous material having a higher temperature.
| | (1)
Note. Extraneous solid material includes recycled regenerated
material which may be mixed with incoming spent material to cool
such regenerated material and preheat the spent material. | |
| | |
| 41 | In gaseous suspension, (e.g., fluidized bed, etc.): |
| | This subclass is indented under subclass 38. Process wherein particles of material are contacted by a
column of gas rising at a velocity which supports them in a state
of turbulence.
SEE OR SEARCH CLASS:
| 423, | Chemistry of Inorganic Compounds, Dig. 16 for a collection of fluidization techniques. |
|
| | |
| 43 | Plural distinct serial combustion stages: |
| | This subclass is indented under subclass 41. Process including two or more sequential steps of energetic
oxidation.
| | (1)
Note. The serial combustion stages may occur in the same or
different reaction zones by, in the first case, utilizing distinctly
differing combustion conditions or, in the second case, causing
a continuous flow of material through different reaction zones. | |
| | |
| 45 | Moving bed (e.g., vertically or horizontally, etc., moving
bulk material): |
| | This subclass is indented under subclass 38. Process in which the spent material is contacted by the
gas while progressing or being carried as a relatively compact mass.
| | (1)
Note. The moving bed may be supported on a belt or be a continuous
flow of material through a zone and includes a rising column of
material supported by sequentially added catalyst or sorbent. Additionally
rotary motion is included, as in a rotary kiln or screw conveyor. |
| | (2)
Note. Disclosures for this subclass will either be silent
as to relative movement of gas and spent material or indicate all such
relative movement to be equivalent. Specified relative movement
between gas and material is provided for in an indented subclass. | |
| | |
| 49 | Plural distinct oxidation stages: |
| | This subclass is indented under subclass 38. Process including a second treatment of the spent material
with an oxidizing agent differing in either location or reaction
condition.
| | (1)
Note. Recitation of two or more stages differing in temperature,
pressure, or oxygen content is considered to indicate plural distinct
stages. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 41+, | for a similar plural stage oxidation process using
a fluidized bed. |
| 50, | for a second reactive gas treatment other than oxidation
(e.g., reduction, replacement etc.). |
|
| | |
| 52 | With control of oxygen content in oxidation gas: |
| | This subclass is indented under subclass 38. Process in which the concentration of oxygen is maintained
at or adjusted to a predetermined parameter.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 6, | for a process in which the oxygen is automatically
controlled. |
| 42, | for a fluidized process in which sufficient oxygen
is maintained to ensure elimination of carbon monoxide. |
|
| | |
| 54 | Ammonia or derivative thereof: |
| | This subclass is indented under subclass 34. Process in which the treating fluid comprises the compound
of nitrogen and three atoms of hydrogen or its substituted or additive
forms including ammonium salts, amines and salts thereof, amides,
and quaternary compounds. |
| | |
| 55 | Steam: |
| | This subclass is indented under subclass 34. Process in which the treating fluid consists essentially
of vaporized water.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 51, | for a similar process using steam added to air or
other free oxygen containing gas. |
|
| | |
| 56 | By heat: |
| | This subclass is indented under subclass 20. Process in which regeneration or rehabilitation is effected
by an increase in temperature.
| | (1)
Note. The processes of this subclass may include the use of
a solid treating agent, but the use of a liquid or gas treating agent
is provided for in subclasses higher in the schedule. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 22+, | for a liquid treating process which may include
heating. |
|
| | |
| 60 | ZEOLITE OR CLAY, INCLUDING GALLIUM ANALOGS: |
| | This subclass is indented under the class definition. Composition which contains a naturally occurring earthy
aluminum silicate having the characteristics set out in the glossary
term "clay" or "zeolite" or
a synthetic replica of the natural material, or similar materials
which contain gallium rather than aluminum.
| | (1)
Note. A synthetic zeolite, per se, is provided for in Class
423, Chemistry of Inorganic Compounds, and subclass 700 definition
explains the distinction between what is considered a zeolite compound
and a mixture. For placement in this class (502) a zeolite must
be admixed with something or be claimed in terms of structure, sufficient
to cause classification in Class 428 rather than in Class 423. A
simple ion exchange operation is considered to give a different
zeolite compound still proper for Class 423. A subsequent reduction
of an exchanged ion is considered to comprise a mixture, proper
for a composition class. Because particular pore size and/or
shape is an inherent property of a zeolite, recitation of pore structure
peculiar to catalysis or sorption, by itself, is not sufficient
for placement in this class (502). This contrasts with classification
of Raney-type catalysts and activated carbon sorbents. |
| | (2)
Note. See section V, Glossary, of the class definition for
this class (502) for definitions of clay and zeolite. |
| | (3)
Note. A better understanding of zeolites may be had by consulting
such literature as Zeolite Molecular Sieves,
O. W. Breck, John Wiley and Sons, 1974. |
| | (4)
Note. Some earthly silicon compounds that are
not clay or zeolite include Asbestos, Diaspore, Diatomaceous, Diatomite,
Feldspar, Guhr, Kieselguhr, Mica earth, Quartz, and Sand. |
SEE OR SEARCH CLASS:
| 252, | Compositions,
subclass 179 and 184 for a zeolite composition used in ion- exchange. |
|
| | |
| 61 | Gallium containing: |
| | This subclass is indented under subclass 60. Composition which includes element 31.
| | (1)
Note. The gallium may be elemental or in a compound and either
in addition to the clay or zeolite or may replace some or all of
the aluminum in clay or zeolite. | |
| | |
| 63 | And additional Al or Si containing component: |
| | This subclass is indented under subclass 60. Composition including along with either a clay or a zeolite,
element 13 or 14 or a compound of such element.
| | (1)
Note. The additional Al or Si component may include a clay
or zeolite of a different source but does not include a naturally
occurring clay of mixed Aluminum silicates. | |
| | |
| 64 | Zeolite: |
| | This subclass is indented under subclass 63. Composition in which a component comprises zeolite. |
| | |
| 67 | Mixed zeolites: |
| | This subclass is indented under subclass 64. Composition which the additional Al or Si is in the form
of a second zeolite. |
| | |
| 68 | Mixed with clay: |
| | This subclass is indented under subclass 64. Composition , in which the additional Al or Si is in the
form of clay.
| | (1)
Note. The zeolite may be synthesized from a clay which is
positively recited as remaining in excess. | |
| | |
| 69 | Heterogeneous arrangement: |
| | This subclass is indented under subclass 64. Composition in which components are claimed as occupying
spatially distinct areas.
| | (1)
Note. Such terms as layered, coated particles, discrete areas
etc., are considered to describe a heterogeneous arrangement. | |
| | |
| 71 | ZSM type: |
| | This subclass is indented under subclass 64. Composition in which the zeolite is synthetic, analogous
to a product originally produced by using an organic template. |
| | |
| 72 | Mixed clays: |
| | This subclass is indented under subclass 63. Composition containing different earthy materials as encompassed
by the glossary term "clay"
| | (1)
Note. This subclass requires a deliberate admixture of clays
and does not encompass a naturally occurring mixture of clays. | |
| | |
| 73 | And Group III or rare earth metal (Al, Ga, In, Ti, Sc,
Y) or Lanthanide containing: |
| | This subclass is indented under subclass 60. Composition including aluminum, gallium, scandium, yttrium,
indium, thallium or a lanthanide. |
| | |
| 75 | Including chemical reduction of exchanged cation: |
| | This subclass is indented under subclass 60. Process in which a positive ion which has replaced an original
ion gains electrons or product of such process.
| | (1)
Note. The bulk of art in this subclass is concerned with exchanging
alkali metal ions in zeolite and reducing the new ion to the free
metal. | |
| | |
| 77 | ZSM type: |
| | This subclass is indented under subclass 60. Composition containing a synthetic zeolite of the type originally
produced using an organic template or a zeolite analogous thereto. |
| | |
| 78 | Mordenite type: |
| | This subclass is indented under subclass 60. Composition in which a zeolite comprises 4 or 5 membered
rings of SiO4 and AlO4 tetahedra, so
arranged that the crystal lattice comprises pores and channels running
parallel along the crystal axis to give a tubular configuration without
intersections allowing access to the cavities in only one direction.
| | (1)
Note. Mordenite generally has a silica to alumina ratio of
about 8 to about 12. | |
| | |
| 79 | Faujasite type (e.g., X or Y, etc.): |
| | This subclass is indented under subclass 60. Composition in which a zeolite is characterized by having
a silica to alumina ratio of about 2.5 to about 7 and a very open
framework, comprising truncated octahedra (B cages) characteristic
of sodalite linked by hexagonal prisms forming super cages, and
a pore size of approximately 60 to 15° A.
| | (1)
Note. The type of zeolite is generally determined by X-ray
diffraction and the patterns may be found in the literature cited
in the notes to subclass 60. Faujasite type includes X, Y, Z 14
and H S. | |
| | |
| 80 | Clay: |
| | This subclass is indented under subclass 60. Composition containing the earthy hydrous aluminum silicate
as set out in the Glossary term "clay".
SEE OR SEARCH CLASS:
| 119, | Animal Husbandry, particularly
subclass 173 for material used for absorbing moisture from an
animal waste product, i.e., excrement or urine, and having a clay
component. |
|
| | |
| 81 | Acid treating: |
| | This subclass is indented under subclass 80. Process in which the clay is contacted with an acid or the
product of such process. |
| | |
| 82 | Plural acid treatment: |
| | This subclass is indented under subclass 81. Process in which the clay is treated with a second acid
or product of such process.
| | (1)
Note. The treatment may involve the use of the same acid more
than once or different acids either simultaneously or sequentially. | |
| | |
| 84 | And metal, metal oxide, or metal hydroxide: |
| | This subclass is indented under subclass 80. Composition in which the clay is associated with an element
listed as one of the metals of Group I to VIII, lanthanides or actinides
in the table at the top of the class schedule, free or as the oxide
or hydroxide. |
| | |
| 85 | Activating treatment: |
| | This subclass is indented under subclass 60. Process in which a zeolite is subjected to an agent which
prepares it for a sorbent or catalytic function.
| | (1)
Note. The agent may be a chemical substance or a physical
treatment. | |
| | |
| 86 | Utilizing ammonium ions: |
| | This subclass is indented under subclass 85. Process in which a compound containing the dissociable moiety
comprising nitrogen and four hydrogen atoms contacts the Zeolite. |
| | |
| 87 | Support per se: |
| | This subclass is indented under subclass 60. Composition in which a zeolite has no catalytic or sorbent
property and is intended only to support other material which has
such property.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 439, | for other materials within the purview of Class
502 which serve as carriers or supports, per se. |
|
| | |
| 100 | CATALYST OR PRECURSOR THEREFOR: |
| | This subclass is indented under the class definition. Composition which is a catalyst* or which is claimed
or disclosed to be useful solely as an essential component of a
catalyst composition or method of making such a composition. (* See
glossary for definition.)
| | (1)
Note. A precursor is classified with the complete disclosed
catalyst composition. If a composition is disclosed or claimed as
both a catalyst, per se, and as
a precursor for another catalyst, it is classified in the first
appearing subclass providing for any complete catalyst composition.
In this regard, a composition comprising a Group VIII metal compound
claimed or disclosed for use solely as a Ziegler catalyst is classifiable
in subclass 103, rather than in subclass 100. |
| | (2)
Note. Included hereunder as catalysts are compositions employed
to modify the course of a reaction so as to yield a different product
than that which would be otherwise obtained, even though the modifying
composition will not, per se, cause the reaction to take place.
(c.f. pat. no. 4,125,481 to a molecular weight regulating mixture
of mercaptan and emulsifier). |
| | (3)
Note. This and indented subclasses include inventions directed
to negative catalysts, and also known as inhibitors, except preservatives
(e.g., octane improvers of antioxidants etc.). |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 520, | for a collection of art directed to controlling
production of various possible products. |
SEE OR SEARCH CLASS:
| 106, | Composition: Coating or Plastic,
subclass 1.11 for a sensitizing composition for activating a
substrate to be subsequently electrolessly metal plated and which
may have a catalytic function. |
| 252, | Compositions, for a composition intended to preserve a material,
e.g., an anti-oxidant or for an octane improver composition which
controls the rate of combustion in an internal combustion engine. |
| 423, | Chemistry of Inorganic Compounds, appropriate subclasses for inorganic compounds,
per se, which may be useful as catalysts. |
|
| | |
| 101 | Making catalytic electrode, process
only: |
| | This subclass is indented under subclass 100. Method or process for manufacturing an electrode having
catalytic properties, generally for use in an electrolytic
or fuel cell.
| | (1)
Note. This subclass does not provide for the catalytic
composition, per se, and a copy of a patent containing
a claim to a catalytic electrode composition must be placed in the
appropriate subclass, e.g., 300. |
SEE OR SEARCH CLASS:
| 204, | Chemistry: Electrical and Wave Energy
subclass 280 for an electrode of that class which may be catalytic. |
| 429, | Chemistry: Electrical Current Producing
Apparatus, Product, and Process,
subclasses 523 through 534for fuel cell electrodes and subclass 535 for process
of making a fuel cell or subcombination thereof including methods
of making an electrode therefor. |
|
| | |
| 102 | Plural component system comprising A - Group I
to IV metal hydride or organometallic compound - and B - Group
IV to VIII metal, lanthanide or actinide compound - (i.e., alkali
metal, Ag, Au, Cu, alkaline
earth metal, Be, Mg, Zn, Cd, Hg, Sc, Y, Al, Ga, In, Tl, Ti, Zr, Hf, Ge, Sn
or Pb hydride or organometallic compound and Ti, Zr, Hf, Ge, Sn, Pb, V, Nb, Ta, As, Sb, Bi, Cr, Mo, W, Po, Mn, Tc, Re, Iron
group, Platinum group, atomic number 57 to 71
inclusive or atomic number 89 or higher compound): |
| | This subclass is indented under subclass 100. Composition which contains (1) a metal hydride
or a compound in which a carbon atom of an organic compound is bonded
directly to a metal atom combined with (2) a compound
of a Group IV to Group VIII metal or a metal of atomic number 57
to 71 inclusive or 89 to 103 inclusive or process of making same.
| | (1)
Note. Compounds in which a metal is completed with
the electrons of an organic carbon to carbon multiple bond are considered
to have carbon bonded directly to metal e.g., Bi-allyl
or cyclopentadienyl complexes etc. |
| | (2)
Note. The metal hydride or organometallic compound
includes a metal of Groups I to IV and the other metal compound includes
a metal of groups IV to VIII, an actinide or lanthanide
as set out in the list preceding the schedule. | |
| | |
| 103 | Component A metal is Group IA, IIA or IIIA and
component B metal is Group IVB to VIIB or VIII (i.e., alkali
metal, alkaline earth Metal, Be, Mg, Al, Ga, In
or Tl and Ti, Zr, Hf, V, Nb, Ta, Cr, Mo, W, Mn, Tc, Re, the iron
Group or Platinum group) (e.g., Ziegler Catalyst, etc.): |
| | This subclass is indented under subclass 102. Composition wherein the metal hydride or the organometallic
compound contains Li, Na, K, Rb, Cs, Fr, Be, Mg, Ca, Sr, Ba, Ra, Al, Ga, In, or
Tl bonded directly to hydrogen or carbon atom of an organic compound
combined with a compound of Ti, Zr, Hf, V, Nb, Ta, Cr, Mo, W, Mn, Tc, Re, Fe, Co, Ni, Ru, Rh, Pd, Os, Ir, Pt, and
a process of making same.
| | (1)
Note. These catalyst are often referred to in the
art as "Ziegler" catalysts and are commonly employed
to ploymerize olefins to form resins. | |
| | |
| 104 | Preparing catalyst or precursor: |
| | This subclass is indented under subclass 103. Methods, claimed for preparing a catalyst or precursor, .
| | (1)
Note. To be originally classified hereunder, a
patent must contain a claim to a process of preparing a catalyst
or precursor. |
| | (2)
Note. The method for preparing the precursor is classifiable
with the intended complete catalyst, see definition of
100 (1) Note. | |
| | |
| 106 | Fluidized bed feature: |
| | This subclass is indented under subclass 104. Process wherein either (a) a fluidized
bed is employed in the manufacture of a catalyst or (b) a
catalyst is made which is disclosed or claimed as useful when employed
in a fluidized bed process. |
| | |
| 107 | Including heating to higher temperature: |
| | This subclass is indented under subclass 104. Process wherein after an initial mixing or reacting of ingredients, the
temperature of the system is increased by the application of outside heat, with
or without the addition of additional materials. |
| | |
| 110 | Including plural additions of component A: |
| | This subclass is indented under subclass 104. Process wherein two or more separate additions of a Group
Ia to Group IIIa metal hydride or organometallic compound are made
at separate times.
| | (1)
Note. The Group Ia to Group IIIa compounds added
at the separate additions may be the same or different substances. | |
| | |
| 115 | Magnesium containing: |
| | This subclass is indented under subclass 114. Composition in which one of the Group Ia to Group IIIa metals
bonded to hydrogen or organic carbon is magnesium. |
| | |
| 119 | Nonmetallic inorganic halogen containing: |
| | Composition under 118 in which the additive is halogen, elemental
or combined with a nonmetal other than carbon.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 112, | for an iodine containing Ziegler catalyst. |
|
| | |
| 126 | Ether: |
| | This subclass is indented under subclass 125. Composition in which the oxygen is bonded to two noncarbonylic
carbons. |
| | |
| 127 | Ester: |
| | This subclass is indented under subclass 125. Composition in which the oxygen is bonded to two carbon
atoms, one of which is carbonylic. |
| | |
| 129 | Metal compound other than that which could be produced in situ by reaction of a Group IA, IIA, or
Group IIIA metal compound present with a titanium or vanadium compound
present: |
| | This subclass is indented under subclass 118. Composition wherein the additive is a metal compound excluding
any compound which could be made
by reaction of a Group Ia to IIIa metal compound present as required
by subclass 103 with a titanium or vanadium compound present.
| | (1)
Note. It must be noted that in many instances when
the basic catalyst ingredients required by subclass 103 are combined, some
reaction takes place, generally, with reduction
of the Group IVb to Group VIIb or Group VIII metal compound to a
lower valence state with elimination of hydride or organo groups from
the Group Ia to IIIa metal compound and their replacement with the anionic
group removed from the Group IVb or Group VIIb or Group VIII metal compound. Thus, for
example, TiCl4 + AlClE+2 TiCl3 + AlCl3 In
this circumstance, the external addition of AlCl3 would
not be provided for hereunder, but the addition of AlBr3 or
NaCl would be classified hereunder, since these substances
could not possibly be made by the above reaction. | |
| | |
| 150 | Organic compound containing: |
| | This subclass is indented under subclass 100. Composition which contains a compound containing two atoms
of carbon bonded together, an atom of carbon bonded to
at least one atom of hydrogen or halogen, or an atom of
carbon bonded to an atom of nitrogen by a single or double bond.
| | (1)
Note. See "organic" in the glossary
for a complete definition. |
| | (2)
Note. To be classified in this or an indented subclass, a
composition must contain an organic compound as defined above or
a method which produces a composition in which an organic compound
is present. A method of making a catalyst in which an organic
compound is employed, which organic compound is removed
or destroyed later in the process leaving a composition with no
organic constituent, or the composition with no organic
constituent, or the composition so produced, is
placed below in the appropriate subclass based on the material remaining. A
cross-reference art collection appears at the end of the
schedule for a process of this type. |
| | (3)
Note. The term "calcining" in a
process or "calcined" in a product shall be interpreted
as meaning that any organic substances that were present are either removed
or destroyed in the absence of any specific indication to the contrary. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 506+, | for a process of making an inorganic catalyst by
a method which employs a fugitive organic substance, removed or
destroyed later in the process. |
|
| | |
| 151 | Method of making including comminuting of solid material (e.g., grinding, crushing, etc.): |
| | This subclass is indented under subclass 150. Process wherein solid starting material or product is reduced
in size by physical means.
| | (1)
Note. When a reaction or mixing process involving
a solid starting material or producing a solid product is carried
out in a device wherein the starting material or product is impacted
by solid media, e.g., ball or
rod mill etc., it will be conclusively presumed
that comminution takes place and the patent placed in this subclass. | |
| | |
| 152 | Organic compound including carbon-metal bond: |
| | This subclass is indented under subclass 150. Composition containing an organic compound having a metal
atom bonded to a carbon atom of the compound.
| | (1)
Note. Complexes of metal atoms with the pi-electrons
of a carbon to carbon double bond, e.g., pi-allyl
or cyclopetadienyl complexes etc., are included within
the scope of this subclass. | |
| | |
| 153 | Diverse metals bonded to carbon: |
| | This subclass is indented under subclass 152. Composition which contains either a single organic compound
containing two or more different metals bonded to carbon, or
two or more organic compounds having different metals bonded to
carbon. |
| | |
| 156 | Including alcohol, phenol, or ether: |
| | This subclass is indented under subclass 152. Composition including a constituent which has oxygen bonded
to a non carbonylic carbon, the other valence being occupied
by hydrogen or a similar carbon or which has been produced by use
of such oxygen containing compound. |
| | |
| 162 | Organic phosphorus or nitrogen, except the ammonium
ion: |
| | This subclass is indented under subclass 150. Composition in which an organic compound contains elements
number 7 or 15 with the proviso that no more than three of the valences
of element 7 are occupied by hydrogen.
| | (1)
Note. Quaternary ammonium compounds are provided
herein, see subclass 164, but the ammonium ion (NH4)+ is excluded. | |
| | |
| 169 | With metal halide: |
| | This subclass is indented under subclass 150. Composition including a compound comprising a metal and
halogen, each as set out in the table at the beginning
of the schedule. |
| | |
| 171 | Organic compound contains metal (e.g., Na-O-Ethyl, etc.): |
| | This subclass is indented under subclass 150. Composition in which an organic compound contains metal
as set out in the list at the top of the schedule.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 152+, | for a composition including a carbon-metal
bond. |
| 161, | for a metal carbonyl containing composition. |
| 170, | for a composition containing a metal carboxylate. |
|
| | |
| 174 | Inorganic carbon containing: |
| | This subclass is indented under subclass 100. Composition which contains element 6, in the free
state or combined with elements such that the compound does not
meet the definition of organic in the Glossary. |
| | |
| 175 | Cyanide: |
| | This subclass is indented under subclass 174. Composition in which the carbon is bound to nitrogen by
a triple bond. |
| | |
| 176 | Hydroxycarbonate: |
| | This subclass is indented under subclass 174. Composition in which a compound includes both a hydroxyl
and a carbonate ion e.g., CO3-M-OH.
| | (1)
Note. These compounds are sometimes referred to as
basic carbonates. | |
| | |
| 177 | Carbide: |
| | This subclass is indented under subclass 174. Composition including binary compound of carbon and a metal
or metalloid. |
| | |
| 180 | Elemental carbon: |
| | This subclass is indented under subclass 174. Composition in which the carbon is in the free state.
| | (1)
Note. Bone black, generally considered to
be a form of carbon, includes approximately 80% calcium
phosphate. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 416+, | for a free carbon containing sorbent composition. |
SEE OR SEARCH CLASS:
| 201, | Distillation: Processes, Thermolytic, for a process of producing carbon by destructive
distillation. |
| 423, | Chemistry of Inorganic Compounds,
subclass 445 for elemental carbon, per se, and
processes of producing carbon. |
|
| | |
| 201 | Nitrate: |
| | This subclass is indented under subclass 200. Composition in which the nitrogen is part of a radical comprising
three oxygen atoms. |
| | |
| 203 | Boron halide: |
| | This subclass is indented under subclass 202. Composition in which the boron is chemically united to a
halogen as set out in the list at the beginning of the schedule. |
| | |
| 205 | And bismuth containing: |
| | This subclass is indented under subclass 204. Composition which also includes element number 83.
| | (1)
Note. The Bismuth may be combined with either or
both the boron or group VI metal. | |
| | |
| 217 | Sulfate: |
| | This subclass is indented under subclass 216. Composition in which the sulfur is combined with four oxygen
atoms to form a divalent ion. |
| | |
| 223 | Platinum group (i.e., Ru, Rh, Pd, Os, Ir, Pt): |
| | This subclass is indented under subclass 222. Composition in which the metal is element number 44, 45, 46, 76, 77, or
78. |
| | |
| 230 | Platinum group (i.e., Ru, Rh, Pd, Os, Ir
or Pt): |
| | This subclass is indented under subclass 229. Composition in which the metal is element number 44, 45, 46, 76, 77, or
78. |
| | |
| 231 | And Group III metal (i.e., Sc, Y, Al, Ga, In or
Te): |
| | This subclass is indented under subclass 224. Composition including a metal of Group III as listed at
the beginning of the schedule, free or chemically combined.
| | (1)
Note. Metal silicates are classified as a mixture
of silicon dioxide and a metal oxide. Illustration: magnesium
silicate is classified as SiO2 and MgO and
will be found in subclass 251. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 60+, | for a composition including a clay or zeolite. |
|
| | |
| 232 | Silicon containing or processing of making: |
| | This subclass is indented under subclass 100. Composition containing element number 14 free or chemically
combined.
| | (1)
Note. Metal silicates are classified as a mixture
of silicon dioxide and a metal oxide. Illustration: a
composition with magnesium silicate is classified as SiO2 and
MgO and will be found in subclass 251. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 60+, | for a composition including a clay of zeolite. |
|
| | |
| 233 | Forming silica gel: |
| | This subclass is indented under subclass 232. Process in which an amorphous form of hydrate silica is
produced; generally by precipitation or coagulation of
a silica sol or decomposition of a silicate.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 8+, | for a process of making or treating a sphere which
may include formation of a silica gel. |
| 400+, | especially 407+ for a sorbent composition
in which silica gel is a constituent. |
SEE OR SEARCH CLASS:
| 423, | Chemistry of Inorganic Compounds,
subclass 335 for silica gel, per se, in the
dried state. |
| 516, | Colloid Systems and Wetting Agents; Subcombinations
Thereof; Processes of Making, Stabilizing, Breaking, or Inhibiting,
subclass 34 for colloid systems of colloid-sized silica
dispersed in primarily organic continuous liquid phase (organosilica
sols), subclasses 79+ for colloid systems
of colloid-sized silica dispersed in aqueous continuous
liquid phase (aquasilica sols), subclass
111 for colloid systems of continuous or semicontinuous solid phase
with discontinuous liquid phase (silica gel); or
agents for such systems or making or stabilizing such systems or
agents; in each instance, when generically claimed
or when there is no hierarchically superior provision in the USPC
for the specifically claimed art. |
|
| | |
| 234 | Coprecipitating: |
| | This subclass is indented under subclass 233. Process which includes the simultaneous precipitation of
another material with the precipitation of the silica gel. |
| | |
| 235 | Group III or rare earth metal, metal oxide, or
metal hydroxide containing (i.e., Sc, Y, Al, Ga, In, Tl
or lanthanide): |
| | This subclass is indented under subclass 234. Process which includes the precipitation of a Group III
or Rare Earth Metal, Metal Oxide or Hydroxide simultaneously
with the precipitation of the silica gel.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 263, | for a catalyst which is a mixture of silica gel
and a group III metal, oxide or hydroxide. |
|
| | |
| 236 | Group IV metal, metal oxide, or metal hydroxide (i.e., Ti, Zr, Hf, Ge, Sn, Pb): |
| | This subclass is indented under subclass 234. Process which includes the precipitation of a Group IV metal, metal
oxide or hydroxide simultaneously with precipitation of the silica gel.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 242, | for a catalyst which is a mixture of silica gel
and a group IV metal, metal oxide or hydroxide. |
|
| | |
| 237 | Metal, metal oxide, or metal hydroxide
containing: |
| | This subclass is indented under subclass 233. Process wherein the precipitation is effected in the presence
of a metal, metal oxide or hydroxide or the metal or metal
compound is added subsequently to the precipitation.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 240, | for a particular metal, metal oxide or hydroxide
with silica, per se. |
|
| | |
| 240 | With metal, metal oxide, or metal hydroxide: |
| | This subclass is indented under subclass 232. Composition including a metal, metal oxide or hydroxide.
| | (1)
Note. This and indented subclasses include compositions
comprising synthetically produced silicates and processes of making
such compositions except those processes involving the formation
of silica gel, for which, see subclasses 233+. | |
| | |
| 242 | Of Group IV (i.e., Ti, Zr, Hf, Ge, Sn
or Pb): |
| | This subclass is indented under subclass 240. Composition including a group IV metal, metal oxide
or hydroxide.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 236, | for a mixtures of silica gel and a group IV metal
oxide produced by coprecipitation process. |
| 239, | for mixtures of silica gel and a group IV metal, metal
oxide or hydroxide added after formation of the silica gel. |
|
| | |
| 251 | Magnesium: |
| | This subclass is indented under subclass 250. Composition which contains magnesium, magnesium
oxide or hydroxide. |
| | |
| 255 | Molybdenum: |
| | This subclass is indented under subclass 254. Composition which contains molybdenum, molybdenum
oxide or hydroxide. |
| | |
| 256 | Chromium: |
| | This subclass is indented under subclass 254. Composition which contains chromium, chromium oxide
or hydroxide. |
| | |
| 259 | Nickel: |
| | This subclass is indented under subclass 258. Composition in which the metal or metal compound comprises
nickel. |
| | |
| 260 | Cobalt: |
| | This subclass is indented under subclass 258. Composition in which the metal or metal compound comprises
cobalt. |
| | |
| 263 | Of Group III or lanthanide group (i.e., Sc, Y, Al, Ga, In, Te, or
atomic number 57 to 71 inclusive): |
| | This subclass is indented under subclass 240. Composition including a group III or lanthanide metal, free
or combined with oxygen or hydrogen and oxygen.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 235, | mixture of silica gel and group III or rare earth
metal oxide produced by coprecipitation process. |
|
| | |
| 300 | Metal, metal oxide or metal hydroxide: |
| | This subclass is indented under subclass 100. Composition which contains a metal* either as the
free element or combined with oxygen or with hydrogen and oxygen.
| | (1)
Note. A metal metallate is considered to be a mixture
of a metal oxide with a metal or other metal oxide. For
example, a composition comprising nickel chromate is considered
to include nickel oxide and chromium oxide. |
| | (2)
Note. This and indented subclasses do not provide
for a metal hydride, per se, unless mixed with
a metal, or oxide or hydroxide thereof. |
| | (3)
Note. See Glossary under metal for synonyms or archaic
terms for elements provided in this or an indented subclass. |
| | (4)
Note. This subclass is residual for a catalyst composition
comprising an actinic or group VII (other than manganese) metal, oxide
or hydroxide not containing a metal provided for in an indent. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 100+, | for a catalyst comprising a metal hydride and 102+ for
a metal hydride in combination with a compound of a metal from Group
IV to Group VIII, a lanathanide or an actinide. |
SEE OR SEARCH CLASS:
| 75, | Specialized Metallurgical Processes, Compositions
for Use Therein, Consolidated Metal Powder Compositions, and
Loose Metal Particulate Mixtures, for ferrous alloy of structural or general utility. |
| 106, | Composition: Coating or Plastic,
subclass 1.11 for a sensitizing composition for activating a
substrate to be subsequently electrolessly metal plated and which
may have a catalytic function. |
| 420, | Alloys or Metallic Composition, for an alloy of general utility. |
| 429, | Chemistry: Electrical Current Producing
Apparatus, Product, and Process,
subclasses 484 through 489and 523-534 for fuel cell electrode structure
or composition. |
|
| | |
| 301 | Raney type: |
| | This subclass is indented under subclass 300. Composition prepared by removing a metal from an alloy,
leaving the remaining metal behind as the catalyst.
| | (1)
Note. The remaining catalytic metal is generally in a highly
active porous or finely divided state. |
| | (2)
Note. The metal may be removed by any method, e.g., dissolving
out by chemical means or by volatilization, etc. |
| | (3)
Note. If a metal catalyst is named a "Raney" catalyst,
it will be presumed to be proper for this subclass unless it is positively
disclosed to be made by a method not within the scope of the definition
of this subclass. | |
| | |
| 302 | Of lanthanide series (i.e., atomic number 57 to 71 inclusive): |
| | This subclass is indented under subclass 300. Composition in which the metal is selected from those with
atomic numbers 57 to 71 (La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy,
Ho, Er, Tm, Yb, Lu).
| | (1)
Note. The metals Lanthanum and Actinium are not included in
Group III for purposes of this class (502) but are considered with
the lanthanides and actinides respectively. | |
| | |
| 303 | Lanthanum: |
| | This subclass is indented under subclass 302. Composition in which the lanthanide is the first of the
series - element number 57. |
| | |
| 304 | Cerium: |
| | This subclass is indented under subclass 302. Composition in which the lanthanide is the second of the
series - element number 58. |
| | |
| 306 | And Group II metal containing (i.e., alkaline earth, Be,
Mg, Zn, Cd or Hg): |
| | This subclass is indented under subclass 305. Composition which additionally includes an alkaline earth
metal, Be, Mg, Zn, Cd, or Hg. |
| | |
| 307 | Zinc: |
| | This subclass is indented under subclass 306. Composition in which the additional metal is element number
30. |
| | |
| 308 | And Group IV metal containing (i.e., Ti, Zr, Hf, Ge, Sn
or Pb): |
| | This subclass is indented under subclass 305. Composition which additionally includes one of Ti, Zr, Hf,
Ge, Sn, or Pb. |
| | |
| 311 | And Group V metal containing (i.e., V, Nb, Ta, As, Sb or
Bi): |
| | This subclass is indented under subclass 305. Composition which additionally includes one of V, Nb, Ta,
As, Sb, or Bi. |
| | |
| 314 | Iron group metal and Group III metal containing (i.e.,
Fe, Co or Ni and Sc, Y, Al, Ga, In or Tl): |
| | This subclass is indented under subclass 313. Composition in which the Group VIII metal is Fe, Co, or
Ni and additionally includes one of Sc, Y, Al, Ga, In or Tl. |
| | |
| 320 | And Group III metal containing (i.e., Sc, Y, Al, Ga, In
or Tl): |
| | This subclass is indented under subclass 319. Composition which additionally includes Sc, Y, Al, Ga, In,
or Tl. |
| | |
| 323 | And Group III metal containing (i.e., Sc, Y, Al, Ga, In
or Tl): |
| | This subclass is indented under subclass 305. Composition which additionally includes Sc, Y, Al, Ga, In,
or Tl. |
| | |
| 326 | Of platinum group metal and of
iron group (i.e., Ru, Rh, Pd, Os, Ir, or Pt and Fe,
Co or Ni): |
| | This subclass is indented under subclass 325. Composition in which there is at least one metal, oxide,
or hydroxide from each of the iron group and the platinum group.
| | (1)
Note. To be classifiable here, a patent must claim for example
iron oxide and platinum; a mixture of iron and nickel or a mixture
of rhodium and palladium are not proper for this subclass. | |
| | |
| 327 | And Group III metal containing (i.e., Sc, Y, Al, Ga, In
or Te): |
| | This subclass is indented under subclass 326. Composition which additionally includes Sc, Y, Al, Ga, In,
or Tl. |
| | |
| 336 | Of iron: |
| | This subclass is indented under subclass 332. Composition in which the additional metal is element number
26. |
| | |
| 338 | Of iron: |
| | This subclass is indented under subclass 325. Composition in which the additional metal is element number
26. |
| | |
| 342 | Of zinc: |
| | This subclass is indented under subclass 341. Composition in which the additional metal is element number
30. |
| | |
| 343 | Of zinc: |
| | This subclass is indented under subclass 340. Composition in which the additional metal is element number
30. |
| | |
| 347 | Of silver: |
| | This subclass is indented under subclass 34. Composition in which the additional metal is element number
47. |
| | |
| 352 | Of tin: |
| | This subclass is indented under subclass 349. Composition in which the additional metal is element number
50. |
| | |
| 400 | SOLID SORBENT: |
| | This subclass is indented under the class definition. Composition in nonfluent phase which serves to attract and
hold on its surface, within its pores, or throughout its mass a
material which is generally fluent.
| | (1)
Note. The material is reversibly held and does not react with
the sorbent. |
SEE OR SEARCH CLASS:
| 119, | Animal Husbandry, particularly
subclasses 171+ for material used for absorbing moisture from an
animal waste product, i.e., excrement or urine. |
|
| | |
| 401 | Organic: |
| | This subclass is indented under subclass 400. Composition in which a constituent is a compound in which
an atom of carbon is bonded to hydrogen, a halogen, a second atom
of carbon or to nitrogen by a single or double bond as set out in
the Glossary term "organic". |
| | |
| 402 | Synthetic resin: |
| | This subclass is indented under subclass 401. Composition in which the organic material is polymeric,
derived by the addition across ethylenic unsaturation or the condensation
of reactive components, or a polymer which could be made by such
addition or condensation reaction.
| | (1)
Note. These compositions include essentially material which,
per se, is classifiable in the Class 520 series of classes. |
SEE OR SEARCH CLASS:
| 520, | Synthetic Resins or Natural Rubbers, for a material, per se, of that class which is cellular
form could inherently be sorbent. |
|
| | |
| 403 | Protein: |
| | This subclass is indented under subclass 401. Composition in which the organic material comprises a chain
of acylyated alpha-amino acids. |
| | |
| 404 | Carbohydrate: |
| | This subclass is indented under subclass 401. Composition in which the organic material is a poly hydroxy
mono-aldehyde or mono-ketone generally of the empirical formula
Cn (H2O)m or a polymeric anhydride hydrolyzable
to such aldehyde or ketone and wherein n is at least 5. |
| | |
| 405 | Inorganic gel containing (e.g., silicagel): |
| | This subclass is indented under subclass 400. Composition in which an inorganic material, usually a metal
or silicon oxide in relatively minor amount is distributed in suspension
in water, appearing to be solid while the water constitutes as much
as 95 to 99% of the mixture.
| | (1)
Note. A true gel is considered a composition, but a completely
dried gel is no more than a compound and classifiable in Class 423. |
SEE OR SEARCH CLASS:
| 423, | Chemistry of Inorganic Compounds, appropriate subclass for a completely dried inorganic
gel. |
| 516, | Colloid Systems and Wetting Agents; Subcombinations
Thereof; Processes of Making, Stabilizing, Breaking, or Inhibiting,
subclasses 98+ for colloid systems of continuous or semicontinuous
solid phase with discontinuous liquid phase (gels, pastes, flocs,
coagulates) or agents for such systems or making or stabilizing
such systems or agents, when generically claimed or when there is
no hierarchically superior provision in the USPC for the specifically
claimed art. |
|
| | |
| 407 | Silicon containing: |
| | This subclass is indented under subclass 400. Composition in which there is element number 14, free or
chemically combined.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 60+, | for a clay or zeolite composition. |
| 405, | for a silica gel sorbent. |
|
| | |
| 416 | Free carbon containing: |
| | This subclass is indented under subclass 400. Composition comprising "activated" carbon
or containing the element with atomic number 6 in substantially
elemental form.
| | (1)
Note. While relatively pure carbon is provided for in Class
423, subclass 445, the term "activated" will be
construed as indicating a composition comprising carbon and unidentified
components, functioning as a sorbent for this class. |
| | (2)
Note. Charred, coked, pyrolyzed, or incompletely combusted
organic material, which may retain some chemically bound carbon
will be considered as being in substantially elemental form for this
subclass. |
SEE OR SEARCH CLASS:
| 516, | Colloid Systems and Wetting Agents; Subcombinations
Thereof; Processes of Making, Stabilizing, Breaking, or Inhibiting,
subclass 32 for colloid systems of colloid-sized carbon (e.g., diamond,
graphite) dispersed in primarily organic continuous liquid phase,
subclasses 38+ for colloid systems of colloid-sized bituminous, coal,
or Carbon phase dispersed in aqueous continuous liquid phase, cross-reference
901 for colloid systems of substantially pure elemental carbon (graphite,
lamp black, carbon black, fullerenes); or agents for such systems
or making or stabilizing such systems or agents; in each instance, when
generically claimed or when there is no hierarchically superior
provision in the USPC for the specifically claimed art. |
|
| | |
| 417 | And specified added active sorbent material: |
| | This subclass is indented under subclass 416. Composition to which a material, not found in the original
source or carbon, has been added to enhance sorbability by its presence.
| | (1)
Note. This subclass requires a named additive intended to
contribute to the function by its presence and not by its action
on carbon and does not include an activating agent such as nitric
acid added during an activating process. |
| | (2)
Note. Animal or bone black is 80% Ca3 (PO4)2,
and a patent claiming a mixture of its with another source of carbon
is proper for this subclass. | |
| | |
| 418 | Process utilizing solid or liquid source carbonizable material,
or product thereof: |
| | This subclass is indented under subclass 416. Process in which the sorbent is produced by (a) chemically
reacting to a nongaseous carbon compound to produce elemental carbon
or (b) adding to or removing from elemental carbon, some other material
or chemically or physically treating such carbon to enhance its
sorbability.
| | (1)
Note. A disclosure of material which may be shaped or pelletized
is an indication of solid or viscous material. An oil is not considered
solid or viscous, however a process including spraying an acid sludge
on cake particles is considered to utilize solid or viscous material. |
| | (2)
Note. Such processes as destructive distillation, charring,
pyrolysis etc. to produce a sorbent (e.g., activated) carbon are
provided for in this or an indented subclass. |
SEE OR SEARCH CLASS:
| 201, | Distillation: Processes, Thermolytic, for destructive distillation in general. |
| 202, | Distillation: Apparatus, for apparatus in which a process of this subclass may
be carried out. |
| 264, | Plastic and Nonmetallic Article Shaping or Treating
Processes,
subclasses 29.1+ for carbonizing and Shaping. |
| 423, | Chemistry of Inorganic Compounds,
subclass 455 for carbonizing to pure carbon. |
|
| | |
| 419 | Producing diverse useful byproduct: |
| | This subclass is indented under subclass 418. Process in which the production or collection of a different
useful material or energy (e.g., heat) is positively claimed.
| | (1)
Note. The positive recitation of collection of volatiles and
use of these as fuel in an upstream phase is considered to give
a diverse by product. |
SEE OR SEARCH CLASS:
| 201, | Distillation: Processes Thermolytic appropriate
subclasses for a process of coking which may also produce a byproduct
fuel gas. |
| 208, | Mineral Oils: Processes and Products appropriate,
subclasses for production of tar or pitch from mineral oil. |
|
| | |
| 420 | Temperature vs. time factor: |
| | This subclass is indented under subclass 418. Process in which a relationship between the amount and the
duration of heat is positively recited e.g., rise from x to x1 in
y hours.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 436, | for a process including 2 distinct heating stages. |
|
| | |
| 422 | Including diverting part of source to providing fuel for
process: |
| | This subclass is indented under subclass 418. Process in which the starting material is physically divided,
one part being burned, thereby providing heat or treating agents
used in converting the remainder of the material to the desired
composition.
| | (1)
Note. This subclass provides for a process in which fines
are screened and burned to carbonize the layer of particles of starting
material. | |
| | |
| 426 | Acid: |
| | This subclass is indented under subclass 423. Subject matter in which the inorganic component is a proton
denor. |
| | |
| 428 | Including pelletizing or briquetting and subsequently comminuting: |
| | This subclass is indented under subclass 418. Process in which a material of indefinite or mixed size
or shape is molded or agglomerated into shaped pieces by compression
or a similar operation and the pieces then subdivided.
| | (1)
Note. A step or operation such as charring may be performed
between the pelletizing and the comminuting or the comminuting may
immediately follow the pelletizing. | |
| | |
| 429 | Using carbonaceous binder: |
| | This subclass is indented under subclass 428. Process in which a carbon containing material is utilized
in making a shapeable mass or to hold together particles of the
material in briquettes.
| | (1)
Note. Aqueous solutions of sugar or starch or pitch are examples
of carbonaceous binders. | |
| | |
| 430 | Treating with gas: |
| | This subclass is indented under subclass 418. Process in which the material is contacted with a specified
fluid above its fluid boiling point at the conditions of the treatment. |
| | |
| 431 | Fluidized bed having specified parameter: |
| | This subclass is indented under subclass 430. Process in which a column of gas rises at a velocity to
support particles of material in a state of turbulence and a rate,
distance, temperature, or other condition is positively recited.
| | (1)
Note. A specified composition is not considered
a parameter for a fluidized bed. |
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 41+, | for a fluidized bed process of regenerating a sorbent. |
SEE OR SEARCH CLASS:
| 423, | Chemistry of Inorganic Compounds, Digest 16 for a collection of art on fluidized bed
techniques. |
|
| | |
| 432 | Specified atmosphere: |
| | This subclass is indented under subclass 430. Process in which the composition of the gas is recited.
| | (1)
Note. The claim may recite an upper limit or a range of percentages. | |
| | |
| 434 | And subsequent diverse gas: |
| | This subclass is indented under subclass 433. Process in which after treatment with the oxygen containing
gas, the carbon source material is contacted with a different gas,
which may also contain oxygen.
| | (1)
Note. The treatment with diverse gas may be in the same or
a different zone and may employ the same constituents in a different
mixture - i.e., other percentages or ingredients. | |
| | |
| 436 | Diverse temperatures: |
| | This subclass is indented under subclass 418. Process in which material is heated at two clearly distinct
temperatures or ranges of temperatures.
| | (1)
Note. A process in which material is subjected to heat which
may increase or decrease during the treatment does not suffice for
placement here. The process must recite two heating stages which
differ unequivocally e.g., at 900° and 15000<°</ or
600° to 900<°</ and
1200 to 1500<°</. | |
| | |
| 439 | MISCELLANEOUS (E.G., CARRIER OR SUPPORT, PER SE, OR PROCESS
OF MAKING, ETC.): |
| | This subclass is indented under the class definition. Product serving as a substrate for the catalyst or sorbent
and the process of preparing the same.
| | (1)
Note. A patent claiming (disclosing) a carrier or support
acting as either a catalyst, or sorbent is placed in the first appearing
subclass providing for the function and crossed in the other subclasses
providing for the other functions. |
SEE OR SEARCH CLASS:
| 252, | Composition,
subclass 1 for a patent having only generic claims(s) and
plural disclosures, e.g., support for catalyst or sorbent, filler,
pigment, etc. |
| 422, | Chemical Apparatus and Process Disinfecting, Deodorizing,
Preserving, or Sterilizing,
subclasses 310+ for an element for that class having a catalyst
coated, laminated, etc. thereto. |
|
| | |
CROSS-REFERENCE ART COLLECTIONS
| 500 | STABILIZED: |
| | This subclass is indented under the class definition. Collection of art disclosing some feature which functions
to prolong or maintain a desired property of a composition of this
class, such as activity or resistance to deterioration. |
| | |
| 501 | For multi-regenerability: |
| | This subclass is indented under subclass 500. Collection of art in which the desired property is the ability
of the material to be regenerated (after being used or spent) a
plurality of times. |
| | |
| 502 | Crystallinity: |
| | This subclass is indented under subclass 500. Collection of art in which the composition retains a particular,
desired crystal phase. |
| | |
| 503 | Crush strength: |
| | This subclass is indented under subclass 500. Collection of art in which the composition is enable to
withstand weight and/or pressure and resists fracturing
or being compacted. |
| | |
| 504 | Abrasion resistance: |
| | This subclass is indented under subclass 500. Collection of art in which the desired property is an ability
of the material to retain its integrity under conditions usually
contributing to spalling or attrition. |
| | |
| 506 | METHOD OF MAKING INORGANIC COMPOSITION UTILIZING ORGANIC COMPOUND
(EXCEPT FORMIC, ACETIC, OR OXALIC ACID OR SALT THEREOF): |
| | This subclass is indented under the class definition. Collection of art disclosing a process of making a composition
of this class in which a transitory organic compound is used.
| | (1)
Note. See Glossary for definition of organic. |
| | (2)
Note. The organic compound may serve as a solvent which is
physically separated from the final composition or may be an intermediate
reactant, removed or destroyed chemically, as by calcination, precipitation,
etc. |
| | (3)
Note. The use of an acetate, formate or oxalate is so conventional
that disclosure of the use of these materials is not collected here. | |
| | |
| 507 | Synthetic resin, natural resin, polysaccaride, or polypeptide: |
| | This subclass is indented under subclass 506. Process in which the organic compound is macro-molecular
film-or fiber-forming or moldable material, manmade or existing
in nature of a polymer of alpha-amino acids or of repeating carbohydrate
units.
| | (1)
Note. These materials are sometimes used as binders and removed
from the shaped final material. | |
| | |
| 509 | Nitrogen containing organic compound: |
| | This subclass is indented under subclass 506. Process in which the organic material includes element number
7.
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 159, | for a process using a resin, natural, or synthetic,
polysaccharide or polypeptide. |
| 507, | for a process using a polypeptide or a resin that
may include nitrogen. |
|
| | |
| 514 | PROCESS APPLICABLE EITHER TO PREPARING OR TO REGENERATING OR
TO REHABILITATING CATALYST OR SORBENT: |
| | This subclass is indented under the class definition. Collection of art disclosing operations which are claimed
or shown to be useful in the original production or in the restoration
of a composition having a utility of this class.
| | (1)
Note. A process of treating carbon with steam which is disclosed
as activating it abinitio or as reactivating a spent carbon sorbent
is classifiable here. | |
| | |
| 515 | SPECIFIC CONTAMINANT REMOVAL: |
| | This subclass is indented under the class definition. Collection of art directed to regenerating or rehabilitating
a composition of this class and concerned primarily with freeing
the composition of some specific material usually called a "poison". |
| | |
| 516 | Metal contaminant removal: |
| | This subclass is indented under subclass 515. Collection of art in which the poison or contaminant comprises
an element (or compound thereof) which exhibits a positive ionic
property is set out in the Glossary as a metal. |
| | |
| 518 | Carbonaceous contaminant: |
| | This subclass is indented under subclass 515. Collection of art in which the material removed comprises
a substantial amount of element number 6 in relatively free state,
or partially oxidized organic material known as char. |
| | |
| 519 | REAGENT GRADE (E.G., ULTRA PURE): |
| | Collection of art disclosing compositions of this class
(generally sorbents) which are free of any components which could
contaminate or interfere in subsequent chemical reactions or analysis.
| | (1)
Note. An example of art to be found here is an ash free sorbent
used in chemical analysis. | |
| | |
| 520 | SUPPRESSED SIDE REACTIONS: |
| | This subclass is indented under the class definition. Collection of art disclosing a composition exhibiting selectivity
from among several possibly sorbable materials or competing reactions
normally expected under the conditions of use of the composition.
| | (1)
Note. Exemplary is a catalyst which inhibits the formation
of butyne in a reaction to give butadiene from butane. | |
| | |
| 521 | METAL CONTAMINANT PASSIVATION: |
| | This subclass is indented under the class definition. Collection of art directed to a process of counteracting
the undesired effect of a metal in a catalyst or sorbent, without
removing said metal. |
| | |
| 522 | RADIANT OR WAVE ENERGY ACTIVATED: |
| | This subclass is indented under the class definition. Collection of art disclosing a composition of this sorbent
under the influence of energy capable of being transmitted through space
of which is transmitted in regular pulses (i.e., quanta). |
| | |
| 523 | MISCELLANEOUS SPECIFIC TECHNIQUES OF GENERAL APPLICABILITY: |
| | This subclass is indented under the class definition. Collection of art disclosing steps or methods which effect
a useful or desirable property of function irrespective of the material acted
upon.
| | (1)
Note. This subclass includes treatments of catalysts, sorbent
and/or supports in general such as methods of coating,
activating mixing, conditioning or increasing surface area. An example
is patent no. 513,109 disclosing a method of applying a myriad of
catalytic material on various supports. | |
| | |
| 524 | SPINEL: |
| | This subclass is indented under the class definition. Collection of art disclosing the particular crystalline
structure of mixed metal oxides of the formula AB2O4 in
which A is a divalent metal e.g., Mg, Zn, Mn or ferrous iron and
B is a trivalent metal such as Al, Cr, or ferric iron. |
| | |
| 525 | PEROVSKITE: |
| | This subclass is indented under the class definition. Collection of art disclosing the particular crystalline
structure of mixed metal oxides of ABO3 in
which A is a divalent or rare earth metal and B is a transition
metal, generally of cubic structure. |
| | |
| 526 | SORBENT FOR FLUID STORAGE, OTHER THAN AN ALLOY FOR HYDROGEN
STORAGE: |
| | This subclass is indented under the class definition. Collection of art disclosing sorbent material designed to
retain a fluid (often a pressurized gas as acetylene) for release
as a fluid at a desired time.
SEE OR SEARCH CLASS:
| 252, | Compositions,
subclass 194 , for a humidostatic composition. |
| 420, | Alloys or Metallic Compositions, pertinent, subclass for an alloy claimed or disclosed as
a hydrogen storing medium, whether by sorption or by chemical reaction,
i.e., hydride formation. See especially
subclass 900 . |
|
| | |
| 527.11 | MONOLITH OF PECULIAR STRUCTURE OR PHYSICAL FORM, WITH SPECIFIED
HEAT EXCHANGE CAPABILITY: |
| | This subclass is indented under the class definition. Collection of art disclosing monoliths wherein the material
or composition of peculiar or specific shape is disclosed to exhibit
significant heat exchange capability. |
| | |
| 527.12 | PLURAL LAYERS ON A SUPPORT, EACH LAYER HAVING A DISTINCT FUNCTION: |
| | This subclass is indented under the class definition. Collection of art disclosing a support having plural layers
thereon, wherein each layer has a distinct function. |
| | |
| 527.14 | SPECIFIED SUPPORT PARTICLES OF PECULIAR STRUCTURE OR PHYSICAL
FORM E.G., WHISKERS, FIBER PIECES, ETC.): |
| | This subclass is indented under the class definition. Collection of art disclosing support particles of a peculiar
structure or physical form. |
| | |
| 527.18 | MONOLITH WITH SPECIFIED GAS FLOW PATTERNS, (E.G., TURBULENT FLOW
MONOLITH): |
| | This subclass is indented under the class definition. Collection of art disclosing a monolith with a specified
gas flow pattern. |
| | |
| 527.19 | MONOLITH WITH SPECIFIC SHAPE OR DIMENSION OF CELL OPENING (E.G.,
HONEYCOMB, RINGS, ETC.) |
| | This subclass is indented under the class definition. Collection of art disclosing a monolith whose cell openings
are of a specific shape or dimension.
| | (1)
Note. This subclass does not provide for nominal honeycomb
disclosure. Specific disclosure of cell opening shape or dimension
(e.g., octagon shape, noncircular opening, etc.) is intended for
provision herein. |
SEE OR SEARCH CLASS:
| 428, | Stock Material or Miscellaneous Articles, appropriate subclasses for specific opening shape
in material(s) or article(s). |
|
| | |
| 527.23 | SPECIFIED EXTERNAL OR INTERNAL SHAPE OR CONFIGURATION OF
CATALYST REACTOR OR OF SORBENT CONVERTER: |
| | This subclass is indented under the class definition. Collection of art wherein a catalyst reactor or a sorbent
converter is characterized by a specific external or internal shape
or configuration.
SEE OR SEARCH CLASS:
| 422, | Chemical Apparatus and Process Disinfecting, Deodorizing,
Preserving or Sterilizing, for apparatus which may include a catalyst or sorbent
of a specific shape. |
|
| | |
| 527.24 | PECULIAR STRUCTURE OR PHYSICAL FORM (E.G., FOAM, SPONGES, FOIL,
SACK, BAG, FIBER IN A MATRIX, MONOLITH, MICROSTRUTURE (MICROCRACKING),
MICROAGGREGATES, ETC.): |
| | This subclass is indented under the class definition. Collection of art disclosing a specific shape or configuration
of the material of the composition.
| | (1)
Note. The following physical concepts are not peculiar for
purposes of belonging to this cross-reference art collection.
| | (a)
Bimodal (multimodal) pore distribution. |
| | (b)
Coating of no special description, including nonuniform coating. |
| | (c)
Reactive complexes (particles on a surface, etc.) |
| | (d)
High specific surface area and/or high porosity. |
| | (f)
Pores made by burning out a substance. |
|
SEE OR SEARCH THIS CLASS, SUBCLASS:
| 8+, | for a process of forming or treating a sphere. |
|
| | |
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CLASS 502,