Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Productiveness property

Effect of the solvent on the yields and product properties resulting from a deasphalting operation. [Pg.370]

Typical feedstock, yields and product properties from an alkylation unit. [Pg.374]

Table 10.7 shows the typical composition of a feedstock to an etherification unit and the average product properties obtained. [Pg.374]

Typical feedstock composition and product properties for the synthesis of MTBE-ETBE. [Pg.375]

Table 10.9 Typical oligomerization feedstock compositions. Performance and product properties. ... Table 10.9 Typical oligomerization feedstock compositions. Performance and product properties. ...
Product properties Light gasoline Heavy gasoline Diesel oil Residue... [Pg.379]

Product properties Delayed coking Fluid coking... [Pg.381]

Typical composition of a coking feedstock. Yields and product properties. [Pg.381]

Table 10.16 gives a typical feedstock composition, as well as yields and product properties. [Pg.392]

Products properties 1 stage without recycle 1 stage with recycle 2 stages... [Pg.394]

Typical feedstock composition, yields and product properties for a hydrorefining unit (to be continued). 1... [Pg.396]

Typical Feedstocks composition, performance and product properties from mild hydrocracking. I... [Pg.399]

Performance and product properties from residue hydroconversion (continued and end). [Pg.401]

Typical hydrotreating feedstock composition. Performance and product properties. [Pg.403]

N. Kosanc, ed., Biosufactants Production, Properties, Applications, Marcel Dekker, New York, 1993. [Pg.155]

Amidation. Heating of the diammonium salt or reaction of the dimethyl ester with concentrated ammonium hydroxide gives adipamide [628-94-4] mp 228°C, which is relatively insoluble in cold water. Substituted amides are readily formed when amines are used. The most industrially significant reaction of adipic acid is its reaction with diamines, specifically 1,6-hexanediamine. A water-soluble polymeric salt is formed initially upon mixing solutions of the two materials then hea ting with removal of water produces the polyamide, nylon-6,6. This reaction has been studied extensively, and the hterature contains hundreds of references to it and to polyamide product properties (31). [Pg.240]

Olefin Sources. The choice of feedstock depends on the alcohol product properties desired, availabiUty of the olefin, and economics. A given producer may either process different olefins for different products or change feedstock for the same appHcation. Feedstocks beheved to be currentiy available are as follows. [Pg.458]

Olefin fibers are used for a variety of purposes from home furnishings to industrial appHcations. These include carpets, upholstery, drapery, rope, geotextiles (qv), and both disposable and nondisposable nonwovens. Fiber mechanical properties, relative chemical inertness, low moisture absorption, and low density contribute to desirable product properties. Table 7 gives a breakdown of olefin fiber consumption by use (73—75). Olefin fiber use in apparel... [Pg.321]

Film or sheet generally function as supports for other materials, as barriers or covers such as packaging, as insulation, or as materials of constmction. The uses depend on the unique combination of properties of the specific resins or plastic materials chosen. When multilayer films or sheets are made, the product properties can be varied to meet almost any need. Further modification of properties can be achieved by use of such additives or modifiers as plasticizers (qv), antistatic agents (qv), fire retardants, sHp agents, uv and thermal stabilizers, dyes (qv) or pigments (qv), and biodegradable activators. [Pg.373]

To improve homogeneity, the preformed article is heated to 370—390°C. The time required for heating and sintering depends on the mold dimensions cooling, which affects the crystallinity and product properties, should be slow. [Pg.353]

The newly formed short-chain radical A then quickly reacts with a monomer molecule to create a primary radical. If subsequent initiation is not fast, AX is considered an inhibitor. Many have studied the influence of chain-transfer reactions on emulsion polymerisation because of the interesting complexities arising from enhanced radical desorption rates from the growing polymer particles (64,65). Chain-transfer reactions are not limited to chain-transfer agents. Chain-transfer to monomer is ia many cases the main chain termination event ia emulsion polymerisation. Chain transfer to polymer leads to branching which can greatiy impact final product properties (66). [Pg.26]

T. R. Anantharaman, Metallic Glasses Production, Properties and Applications, Trans. Tech. Pubhcations, Switzerland, 1983. [Pg.386]

The hydration rate of sodium tripolyphosphate to its stable hexahydrate, Na P O Q 6H20, directly affects detergent processing and product properties. The proportion of STP-I (fast-hydrating form) and STP-II (slow-hydrating form) in commercial sodium tripolyphosphate is controUed by the time—temperature profile during calcination. In most processes, a final product temperature of near 450°C results in a product containing about 30%... [Pg.337]

The large majority of activated alumina products are derived from activation of aluminum hydroxide, rehydrated alumina, or pseudoboehmite gel. Other commerical methods to produce specialty activated aluminas are roasting of aluminum chloride [7446-70-0], AIQ calcination of precursors such as ammonium alum [7784-25-0], AlH2NOgS2. Processing is tailored to optimize one or more of the product properties such as surface area, purity, pore size distribution, particle size, shape, or strength. [Pg.155]

Quality Function Deployment. Sometimes referred to as the House of Quahty, quahty function deployment (QFD) is a technique for translating the voice of the customer iato design requirements (19). This is a systematic approach identifyiag customer expectations and relating the expectations to product properties. The usage of QFD ia the chemical iadustry appears to be growing. QFD results ia chemical specifications optimized to assure the material is suitable for its iatended use and performs up to customer expectations. [Pg.367]


See other pages where Productiveness property is mentioned: [Pg.385]    [Pg.386]    [Pg.386]    [Pg.387]    [Pg.387]    [Pg.401]    [Pg.403]    [Pg.353]    [Pg.362]    [Pg.63]    [Pg.85]    [Pg.258]    [Pg.501]    [Pg.147]    [Pg.378]    [Pg.52]    [Pg.123]    [Pg.554]    [Pg.56]    [Pg.95]    [Pg.131]   
See also in sourсe #XX -- [ Pg.15 ]

See also in sourсe #XX -- [ Pg.15 ]




SEARCH



Agglomeration product properties

Antioxidant properties of products

Barley Starch Production, Properties, Modification and Uses

Biomass liquefaction products product properties

Catalysts effects on yields and product properties

Characterization and Product Properties of Silane-Modified Silica Dispersions

Chemical properties world production

Correlations to Predict Product Properties during Hydrotreating of Heavy Oils

Crystalline state, determine product properties

Dairy products rheological properties

Direct products, some properties

Disposable hygiene products properties

EFFECT ON PRODUCT PROPERTIES

Effect of plasticizers on product properties

Entropy production general properties

Feed and Product Properties

Final Product Properties

Foam final product properties

Gelled products properties

General Production Properties

General Properties of Entropy Production

Groups of Natural Products with Anticancer Properties

Hierarchical products property functions

Hierarchical products structure—property functions

Immunological properties products

Impact of Solid-State Form on API and Product Properties

Improved Product Properties of Pigmented Acrylic and Alkyd Paints

In products properties

Influences of Mixing on Product Properties

Intellectual property rights natural products

Ligand Properties on Product Structure and Reactivity

Linear alkyl benzene product properties

Liquid product properties

MFI Correlations in Polymer Product Property Evaluation

Maillard reaction products, sensory properties

Material properties production process

Material properties successive production steps

Mead production properties

Mechanical and optical properties of everyday products

Multi-objective Chemical Product Design with Consideration of Property Prediction Uncertainty

Natural Rubber Production, Properties and Applications

Natural products pharmacokinetic properties

Natural products physicochemical properties

Natural products properties

Natural products synthesis asymmetric properties

Natural products toxicological properties

Optical properties product

Personal care products rheological properties

Petroleum products property measurement

Pharmaceutical products physicochemical properties

Physical Properties of Products from Friedel-Crafts and Grignard Reactions

Physical properties of product

Physical-chemical properties and qualities of biological products

Physiochemical properties products

Potato products textural properties

Powder metallurgy product properties

Product Property Correlation

Product properties

Product properties

Product properties (I) Mechanical behaviour and failure

Product properties (II) Environmental behaviour and failure

Product properties agglomerates

Product properties dispersity

Product properties filter cakes

Product properties morphology

Product properties particulate structure

Product properties powder technologies

Product properties property function

Product properties quantum size effect

Product properties scanning electron microscopy

Product properties surface plasmon resonances

Product properties transmission electron microscopy

Product properties, electroactive

Product properties, electroactive composites

Product properties, polymerization reaction

Product properties, precipitation polymerizations

Product quality property modifiers

Production and Chemical Properties

Production of Staple Fiber Yarns with Defined Properties

Production properties and

Production properties and process

Products and Properties

Products physical properties

Products property curves

Properties Related to Storage and Distribution of Petroleum Products

Properties and Production of the Halogens

Properties of Commercial Products

Properties of Liquid Product

Properties of Maillard Reaction Products

Properties of Major Refinery Products

Properties of Product Operators

Properties of Some Diboration Products

Properties of WPC Products

Properties of product

Properties of the Final Product

Properties, Range and Applications of MABS Products

Property Products versus Averaged Properties

Property, Performance, and Product

Pyrrole Natural Products with Antitumor Properties Gupton

Reaction variables affecting product properties

Refineries products, properties

Rice Starches Production and Properties

Ruthenium, tris in hydrogen production from water photochemical properties

Service properties of refractory products

Silicone products properties

Strength properties, color product testing

Structure and Properties of Injection-Molded Products

Sweeteners from Starch Production, Properties and Uses

Topical products physical properties

Tubular product properties, affected

Wheat Starch Production, Properties, Modification and Uses

Yields and Product Properties

© 2024 chempedia.info