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Textile cells

Sodium chlorite oxidation of com and rice starches is recommended for the production of textile sizes (101) and oxidized starch is recommended as a hardening agent in the immobilization of microbial cells within gelatin (102). [Pg.344]

In fine wool such as that obtained from merino sheep, the cuticle is normally one cell thick (20 x 30 x 0.5 mm, approximate dimensions) and usually constitutes about 10% by weight of the total fiber. Sections of cuticle cells show an internal series of laminations (Figs. 1 and 2) comprising outer sulfur-rich bands known as the exocuticle and inner regions of lower sulfur content called the endocuticle (13). On the exposed surface of cuticle cells, a membrane-like proteinaceous band (epicuticle) and a unique hpid component form a hydrophobic resistant barrier (14). These hpid and protein components are the functional moieties of the fiber surface and are important in fiber protection and textile processing (15). [Pg.340]

Capillary Flow Moisture which is held in the interstices of solids, as liquid on the surface, or as free moisture in cell cavities, moves by gravity and capiUarity, provided that passageways for continuous flow are present. In diying, liquid flow resulting from capiUarity appUes to liquids not held in solution and to aU moisture above the fiber-saturation point, as in textiles, paper, and leather, and to all moisture above the equiUbrium moisture content at atmospheric saturations, as in fine powders and granular solids, such as paint pigments, minerals, clays, soU, and sand. [Pg.1179]

Hydrogen cyanide From metal plating, blast furnaces, dyestuff works Metal fabricating, primary metals, textiles Capable of affecting nerve cells... [Pg.2174]

Microelectronic circuits for communications. Controlled permeability films for drug delivery systems. Protein-specific sensors for the monitoring of biochemical processes. Catalysts for the production of fuels and chemicals. Optical coatings for window glass. Electrodes for batteries and fuel cells. Corrosion-resistant coatings for the protection of metals and ceramics. Surface active agents, or surfactants, for use in tertiary oil recovery and the production of polymers, paper, textiles, agricultural chemicals, and cement. [Pg.167]

Chlorella, aquatic plant, grass, hay, spruce twigs and needles, olive leaves, peach leaves, tobacco leaves Bovine muscle, bovine liver, pig kidney, milk powder, cereals, single cell protein, butterfat, fish oil, animal feed-stuffs, textiles... [Pg.21]

Yang et al. [389] rapidly distinguished compounds extracted from paper, using on-line SFE-SFC-FHR in conjunction with principal component analysis. The quantitative determination of the surfactant mixture Triton X-100 and other complex oligoether surfactants by means of cSFC-FTIR flow-cells has been reported [390,391]. Practical applications of SFC-FTIR include the determination of nonvolatile compounds from microwave-susceptible packaging that may migrate into heated food. Another application is the analysis of fibre finishes on fibre/textile matrices. [Pg.479]

Pearce Cl, Lloyd JR, Guthrie JT (2003) The removal of colour from textile wastewater using whole bacterial cells a review. Dyes Pigm 58 179-196... [Pg.28]

Sharma DK, Saini HS, Singh M et al (2004) Biodegradation of acid blue-15 a textile dye by an upflow immobilized cell bioreactor. J Ind Microbiol Biotechnol 31 109-114... [Pg.84]

Ertugrul S, San NO, Donmez G (2009) Treatment of dye (Remazol Blue) and heavy metals using yeast cells with the purpose of managing polluted textile wastewaters. Ecol Eng 35 128-134... [Pg.191]

Surface Modifications. Basic photopolymer chemistry is also being used for the surface modification of films, textiles fibers, and many other organic-based materials (104). Some of the novel applications of photopolymer technology to surface modification include the design of cell repellent treatments and in photografting of various chemical functionality onto the surface of materials to improve color retention, enhance the adhesion of antistatic chemicals or to improve staining resistance. [Pg.11]

A derived combined approach uses an amperometric biosensor [57] with a whole-cell (E. coli) sensing part, for industrial application (textile and tannery wastewaters) and detection of phenolic compounds, non-ionic surfactants and benzenesulphonate compounds. As in the previous studies, chemical analysis (SSPE followed by LC-MS) revealed the pollutants responsible for the observed toxicity. [Pg.263]

Immobilized catalases, for textile bleaching effluent treatment, 4 68—69 Immobilized cells, 3 670 Immobilized enzyme biosensors,... [Pg.464]

See other pages where Textile cells is mentioned: [Pg.364]    [Pg.54]    [Pg.83]    [Pg.473]    [Pg.472]    [Pg.383]    [Pg.346]    [Pg.71]    [Pg.208]    [Pg.282]    [Pg.118]    [Pg.605]    [Pg.99]    [Pg.524]    [Pg.76]    [Pg.281]    [Pg.181]    [Pg.275]    [Pg.26]    [Pg.78]    [Pg.149]    [Pg.170]    [Pg.172]    [Pg.189]    [Pg.367]    [Pg.584]    [Pg.1029]    [Pg.3]    [Pg.148]    [Pg.122]    [Pg.157]    [Pg.91]    [Pg.105]    [Pg.253]   


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