» » Solvent Drag - Solvent Drag

Solvent Drag - Solvent Drag FLAC album


Performer: Solvent Drag
Genre: Rock
Title: Solvent Drag
Country: Germany
Released: 2000
Style: Hardcore, Punk
FLAC version ZIP size: 1774 mb
MP3 version ZIP size: 1121 mb
WMA version ZIP size: 1624 mb
Rating: 4.9
Votes: 326
Other Formats: DTS MPC WAV DMF AHX WMA AA

Solvent drag, also known as bulk transport, refers to solutes in the ultrafiltrate that are transported back from the renal tubule by the flow of water rather than specifically by ion pumps or other membrane transport proteins. This is a phenomenon primarily in renal physiology, but it also occurs in gastrointestinal physiology. It generally occurs in the paracellular, rather than transcellular, pathway between the tubular cells.

Solvent Drag ‎– Solvent Drag Notes. Aufgenommen und abgemischt im Dezember 1999 von Jan Nandzik und Solvent Drag, Freakuency Supreme Studio.

The movement of ions across cell membranes by bulk transport following the movement of water rather than being facilitated by ion channels or cellular pumps. 1. capable of dissolving other material. 2. the liquid in which another substance (the solute) is dissolved to form a solution. transfer of solutes across the intestinal wall by being carried along with the water flow driven by osmotic gradients across cell membranes. solvent extraction of oil seeds. the oil is extracted by organic solvents, a modern process largely displacing extraction by pressure

Drag reduction is the effective reduction of the fluid flow friction brought about by the addition of small amounts of dissolved polymer, suspended particles, or emulsions. This study has focused on the turbulent-flow drag reduction effected by small amounts (10-6–10-3 g/ml) of polyisobutylene dissolved in organic solvents of varying solubility parameters. The data show that a maximum drag reduction (up to 70% for Reynolds numbers of 20,000) occurs in solvents with a solubility parameter near that of the polymer.

The corresponding solvent drag reflection coefficient for hamster LDL was estimated to be ~. These results are consistent with sieving hamster LDL (effective radius 1. nm) through equivalent pores of ~22 nm radius. Similar results were found with human LDL (effective radius 1. nm) in hamster microvessels. The results provide a bridge between studies of LDL transport across cultured endothelial barriers, where high diffusive permeability coefficients to LDL may obscure the contributions of solvent drag, and studies in whole animals, where the consequences of sieving of LDL at the vessel.

Alternatively, 1,25(OH)2D3 might have used other mechanisms to increase solvent drag-induced calcium transport, for example, by inducing contraction of perijunctional actomyosin ring to widen the tight junction pores (.

We present a numerical calculation for the Stokes drag of a particle in a nematic solvent. Due to the radial anchoring of the molecules at the particle surface and a uniform director field at infinity, the particle is accompanied by a hyperbolic point defect which gives rise to the so-called dipole configuration. We write the Ericksen-Leslie equation in a reduced form emphasizing the importance of the Ericksen number Er. Due to the coupling between director and velocity field, we find a highly non-linear Stokes drag

Return to "Solvent drag" page. Terms of Use. Privacy.

The frictional drag reduction of high molecular weight poly(ethylene oxide) and polystyrene solutions under turbulent flow conditions has been studied as a function of temperature, solvent power, and solvent viscosity. A rotating-disc apparatus was used to make the drag reduction measurements. For aqueous poly(ethylene oxide) solutions, at concentrations well above that needed to produce maximum drag reduction, all drag reduction data reduced to a common curve when per cent drag reduction was plotted against the Reynolds number for the flow.

Tracklist

A1 Krieg Ist Frieden
A2 Arbeit Macht Arbeit
A3 Eingemauert
B1 Nichts Zu Verlieren
B2 Lass Die Sonne In Dein Herz
B3 Bekenntniszwang

Credits

  • Bass – Martin*
  • Drums – Tim
  • Guitar – Se Jong
  • Guitar, Vocals – Dany

Notes

Aufgenommen und abgemischt im Dezember 1999 von Jan Nandzik und Solvent Drag, Freakuency Supreme Studio.
Black vinyl.

Barcode and Other Identifiers

  • Matrix / Runout: LOBO 005 LASS DIE SONNE IN DEIN HERZ ...
  • Matrix / Runout: LOBO 005 ... ES WIRD VERBRENNEN !!!

Other versions

Category Artist Title (Format) Label Category Country Year
LOBO 005 Solvent Drag Solvent Drag ‎(7", Bro) Hombre Lobo Rec. LOBO 005 Germany 2000