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Sterilisers

Liquid chlorine dioxide, ClOj, boils at 284 K to give an orange-yellow gas. A very reactive compound, it decomposes readily and violently into its constituents. It is a powerful oxidising agent which has recently found favour as a commercial oxidising agent and as a bleach for wood pulp and flour. In addition, it is used in water sterilisation where, unlike chlorine, it does not produce an unpleasant taste. It is produced when potassium chlorate(V) is treated with concentrated sulphuric acid, the reaction being essentially a disproportionation of chloric(V) acid ... [Pg.335]

Miscellaneous Applications. PEIs and their derivatives ate used as cementation auxihaties in cmde oil exploration (459), and for breaking cmde oil emulsions (460) in cmde oil extraction. Seed coatings of water-soluble copolymers containing polyethyleneimine have been developed (461). Polyethyleneimine derivatives have positive photoresist properties (462) amidated polyethyleneimines improve the flow properties of cement (463) and with few exceptions, A/-acyla2iddines act as chemical sterilisers for insects (464). [Pg.14]

Reports of sterilisation (qv) against bacteria by nonthermal effects have appeared, but it is generally beheved that the effect is only that of heating (164). Because microwave heating often is not uniform, studies in this area can be seriously flawed by simplistic assumptions of uniform sample temperature. [Pg.346]

In addition to these forms of water, several other official aqueous vehicles can be used. These are isotonic injections that can be sterilised, eg, sodium chloride. Ringer s, dextrose, dextrose and sodium chloride, and lactated Ringer s. Addition of water-miscible solvents such as ethanol or propylene glycol increases solubiUty and stabiUty. [Pg.234]

Phthalocyanines are excellent lubricants at temperatures of 149—343°C (191). Combinations with other lubricants, like grease, molybdenum, or tungsten sulfides, have found appHcations in the automotive industry or professional drilling equipment (192—195). Further uses include indicators for iron(Il), molybdenum(V), and uranium(IV) (196) or redox reactions (197), medical appHcations like hemoglobin replacements (198) or sterilisation indicators (199), or uses like in gas filters for the removal of nitrogen oxides from cigarette smoke (200). [Pg.507]

Neomycin [1404-04-1] (33) or neomycin sulfate [1405-10-3], isolated from Streptomjcesfradiae (34—36), is sometimes used for gut sterilisation and other nonsystemic apphcations. Neomycin is a mixture of neomycin B /719-04-0] CggH N Ogg (9)... [Pg.479]

Low humidity ethylene oxide gas sterilisa tion procedures and moisture-proof packaging for polyglycoHc acid products are necessary because of the susceptibihty to degradation resulting from exposure to moisture and gamma sterilisation. [Pg.191]

J. J. Perkins, Principles andMethods of Sterilisation in the Health Sciences 2nd ed., Charles C. Thomas, Springfield, lU., 1969. [Pg.411]

G. B. Phillips and W. Miller, Validation of Steam Sterilisation Technical Monograph 1, Parenteral Dmg Association, 1978. [Pg.411]

Steam Sterilisation and Sterility Assurance Association for Advancement of Medical Instmmentation, Arlington, Va., ANSI/AAMI ST46,1993. [Pg.411]

R. R. Ernst, Industrial Sterilisation Ethylene Oxide Gaseous Sterilisation for Industrial Applications Duke University Press, Durham, N.C., 1973. [Pg.411]

Sterilisation of Health Care Products—Chemical Indicators, Part 1 General Requirements, AAMI 1114001-D, 1995-11-30, Association for the Advancement of Medical Instmmentation, Arlington, Va., 1995, proposed new American National Standard. [Pg.411]

Validation and Foutine Monitoring of Moist Heat Sterilisation Processes, ISO 11134, International Standards Organization, Geneva, Switzerland. [Pg.412]

Fermentative Manufacture. Throughout the years, riboflavin yields obtained by fermentation have been improved to the point of commercial feasibiUty. Most of the riboflavin thus produced is consumed in the form of cmde concentrates for the enrichment of animal feeds. Riboflavin was first produced by fermentation in 1940 from the residue of butanol—acetone fermentation. Several methods were developed for large-scale production (41). A suitable carbohydrate-containing mash is prepared and sterilised, and the pH adjusted to 6—7. The mash is buffered with calcium carbonate, inoculated with Clostridium acetohutylicum and incubated at 37—40°C for 2—3 d. The yield is ca 70 mg riboflavin/L (42) (see Fermentation). [Pg.78]

The converted mash is pumped to a clean sterilised fermentor and the yeast inoculum is added. The set temperature range for whiskey fermentation of 72 hours is usually 17—21°C. At the beginning, the mash converted composition is approximately 80% sugars, mainly maltose and some (<1%) dextrose (primary conversion). The pH is adjusted to reduce initial bacterial growth. Grain neutral spidts are usually set at 27—29°C to expedite fermentation. Temperatures above 35°C inhibit yeast reproduction and promote rapid bacterial growth. Above 40°C actual yeast kill occurs. [Pg.85]

The radioactive isotope Cs is important commercially in process control instmments and for sewage sludge sterilisation. The isotope has along half-life — 30 yi )i however, it must be weU-shielded because of the high biological hasard. [Pg.379]

In the 1970s questions were raised about certain immunological complications as a consequence of male sterilisation or vasectomy. Clinical epidemiological data do not appear to indicate that this actually occurs in clinical practice. No significant long-term side effects of male sterilisation have been demonstrated. [Pg.122]

Voluntary female sterilisation is the world s most widely used family planning method. An estimated 138 million women of reproductive age used the method in 1990, 43 million more than in 1984. Millions more are expected to ask for the method during the 1990s (97). [Pg.122]

Because of the increa sing worldwide interest and demand for simple, effective, and inexpensive female sterilisation, a variety of procedures and methods have been developed. These approaches differ whether they are performed postpartum, postabortum, or in interval situations. The choice of methods also largely depends upon the physician s prior training, knowledge, and experience. Excellent reviews have been written on sterilisation (98). [Pg.122]

Voluntay Female Sterilisation, Population Reports, Series C, no. 10, Population Information Program, The Johns Hopkins University, Baltimore, 1990. [Pg.125]

Decorative eye cosmetic products have been reported to be subject to pathogenic microbial contamination. Regulatory agencies in several countries, therefore, permit the use of mercury-containing preservatives in eye makeups. The infections reported were to a large extent caused by contamination during use, and the introduction of self-sterilising preparations seems warranted. [Pg.291]


See other pages where Sterilisers is mentioned: [Pg.347]    [Pg.348]    [Pg.374]    [Pg.80]    [Pg.180]    [Pg.461]    [Pg.466]    [Pg.571]    [Pg.253]    [Pg.365]    [Pg.174]    [Pg.234]    [Pg.155]    [Pg.470]    [Pg.475]    [Pg.215]    [Pg.225]    [Pg.411]    [Pg.411]    [Pg.411]    [Pg.266]    [Pg.270]    [Pg.33]    [Pg.391]    [Pg.230]    [Pg.111]    [Pg.290]    [Pg.304]    [Pg.471]   
See also in sourсe #XX -- [ Pg.250 ]




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Chemical sterilisation

Crosslinking and Sterilisation

Ethylene oxide sterilisation

Filter sterilisation

Food sterilisation

Formaldehyde sterilisation

Gas sterilisation

Heat sterilisation

Heat sterilisation process

Hot water sterilisation

Hydrogen peroxide sterilisation

Ionising radiation sterilisation

Irradiation sterilisation

Medical devices steam sterilisation

Membrane filtration sterilisation

Microwave sterilisation

OXYGEN Sterilisation

Operations sterilisation

Packaging sterilisation wrap

Parenteral preparations sterilisation

Plasma sterilisation

Plastics sterilisation

Pressure steam sterilisers

Radiation sterilisation

Rapid sterilisation

Soil Sterilisation

Steam sterilisation

Sterilisation

Sterilisation

Sterilisation agent

Sterilisation application

Sterilisation by filtration

Sterilisation by gaseous biocides

Sterilisation by heat

Sterilisation control

Sterilisation disadvantages

Sterilisation effect

Sterilisation guidelines

Sterilisation methods

Sterilisation methods filtration

Sterilisation methods ionising radiation

Sterilisation methods selecting

Sterilisation of food

Sterilisation of polymers

Sterilisation of water

Sterilisation procedure

Sterilisation processes

Sterilisation processes autoclaving

Sterilisation resistance

Sterilisation time

Sterilisation validation

Sterilisation wrap

Sterilisation, decision tree

Sterilise in place

Sterilising

Sterilising

Sterilising agents

Sterilising tube

Surface sterilisation

Terminal sterilisation

Terminal sterilisation methods

Thermal sterilisation

UV sterilisation

Ultraviolet sterilisation

Ultraviolet sterilisers

VHP Sterilisation

Validation sterilisation procedure

Water food sterilisation

Water sterilisation

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