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991.
The partial molar isentropic pressure coefficients at infinite dilution, K
S,2
o
, have been determined for a number of dipeptides in aqueous solution at 25°C. For a series of dipeptides of sequence gly-X, where X is an amino acid with a neutral side chain, the K
S,2
o
values are all more negative than that for diglycine. The results are discussed in terms of the hydration of the side chains. There are significant differences in the K
S,2
o
values for sequence isomeric dipeptides. These differences can be rationalized in terms of the mutual interactions between the side chain and the ionic end groups in the dipeptides. Possible relationships between K
S,2
o
and V
2
o
, the partial molar volume at infinite dilution, were investigated. For the dipeptides of sequence gly-X there is an interesting linear relationship between K
S,2
o
/V
2
o
and V
2
o
. 相似文献
992.
Drag force on a metallic or nonmetallic spherical particle exposed to a plasma flow is studied for the extreme case of a free-molecule regime. Analytical expressions are derived for the drag components due to, respectively, atoms, ions, and electrons and for the total drag on the whole sphere due to all the gas species. It has been shown that the drag is proportional to the square of the particle radius or the drag coefficient is independent of the particle radius. At low gas temperatures with a negligible degree of ionization, the drag is caused mainly by atoms and could be predicted by using the well-known drag expression given in ordinary-temperature rarefied gas dynamics. On the other hand, the drag is caused mainly by ions at high plasma temperatures with a great degree of ionization. The contribution of electrons to the total drag is always negligible. Ignoring gas ionization at high plasma temperatures would overestimate the particle drag. There is a little difference between metallic and nonmetallic spheres in their total drag forces, with a slightly higher value for a metallic sphere at high plasma temperatures, but usually such a small difference could be neglected in engineering calculations. The drag increases rapidly with increasing gas pressure or oncoming speed ratio. For a two-temperature plasma, the drag increases at low electron temperatures but decreases at high electron temperatures with the increase in the electron/heavy-particle temperature ratio.Nomenclature
C
d
Drag coefficient
-
e
Elementary charge
-
f
D,F
D
Local and total drag (N/m
2 andN)
-
f
–
Velocity distribution function for incident gas particles
-
f
+
Velocity distribution function for reflected gas particles
-
k
Boltzmann's constant
-
m
Gas particle mass (kg)
-
n
Number density of gas species (m
–3)
-
P
–,P
+
Surface pressure due to incident and reflected gas particles
-
R
0
Sphere radius (m)
-
S
Speed ratio,S
j=U/(2kT
j/mj)1/2
-
T
e,T
h
Electron and heavy-particle (atom, ion) temperature
-
T
w
Wall temperature
-
U
Oncoming plasma flow velocity
-
v
x, vy, vz
Velocity components of gas particles in thex, y, andz directions (m/sec)
-
v
Thermal motion speed of gas particles,v
j
=(8kT
j
/m
j
)1/2
-
v
ze
Smallestv
z of electrons which could reach the sphere surface,v
ze=(2e/m
e)1/2 (m/sec)
-
v
zw
Value ofv
z of ions or electrons as arriving at the sphere surface (m/sec)
-
Center angle
-
Gas density (kg/m3)
-
Shear stress (N/m2)
-
Absolute value of the floating potential (V)
- ,
Local and total particle fluxes incident to the surface
- a
Atoms
- e
Electrons
- h
Heavy particles
- i
Ions
-
j
jth gas species
- m
Metallic sphere
- mn
Nonmetallic sphere
A preliminary version of this paper was presented at the Eighth International Symposium on Plasma Chemistry held in Tokyo, September 1987. 相似文献
993.
聚碳硅烷的高温高压生成机理研究 总被引:1,自引:0,他引:1
分别以聚二甲基硅烷(PDMS)、液态聚硅烷(LPS)及PDMS裂解剩余物(LPCS)为原料,在不同的温度下高压合成聚碳硅烷(PCS),采用红外、紫外、核磁共振、分子量及其分布等分析PCS的组成、结构随温度的变化.同时,采用改变减压蒸馏温度的办法,对PCS进行分级,收集在不同蒸馏温度下的馏分,通过对一系列馏分进行了IR分析,以此推测PCS的转化过程.研究表明,PCS的生成过程是随着温度的升高,PDMS、LPS中键能较低的Si—Si键断裂,逐渐转变成为键能较高的Si—C键,转化为低分子的碳硅烷;随着温度的升高,碳硅烷分子间发生脱氢、脱甲烷缩合反应使产物的分子量逐渐长大,生成PCS. 相似文献
994.
Yoshitsugu Kojima Takaaki Matsuoka Norio Sato Hideroh Takahashi 《Journal of polymer science. Part A, Polymer chemistry》1995,33(17):2935-2940
New conjugated oligomers were prepared by reacting phenylacetylene under high pressure of 0.11 to 0.92 GPa at 100–200°C for 0–5 h. The number-average molecular weight M?n, the weight-average molecular weight M?w, and the oligomer yield increased with pressure, tem-perature, and time. The average molecular weight of the oligomer showed the maximum value (M?n: 830, M?w: 2400) under 0.92 GPa, the maximum pressure, where phenylacetylene was oligomerized at a constant temperature. The structure of the oligomer was investigated from ESR, infrared, UV–VIS, field desorption mass (FDMS) spectra, and 13C NMR spec-trum. Analysis of the FDMS spectrum revealed that the molecular weight of the oligomer was multiple of the monomer. 13C NMR spectrum of the oligomer showed the absence of sp-carbon (? C?). We found that the oligomer had a cyclic structure. The cyclic oligomers of pentamer or more were new compounds. © 1995 John Wiley & Sons, Inc. 相似文献
995.
超临界萃取装置的研制及其应用 总被引:5,自引:0,他引:5
超临界流体萃取是近的上来兴起的一种新的分离技术,报道了将超临界萃取原理与回流技术相结合研制的二氧化碳回流中低压超临界流体萃取设备,解决了关键实验手段,通过应用证明设备可靠,费用低廉,有实用价值。 相似文献
996.
997.
《Chemphyschem》2003,4(4):359-365
We studied the thermodynamic stability of a small monomeric protein, staphylococcal nuclease (Snase), as a function of both temperature and pressure, and expressed it as a 3D free‐energy surface on the p,T‐plane using a second‐order Taylor expansion of the Gibbs free‐energy change ΔG upon unfolding. We took advantage of a series of different techniques (small‐angle Xray scattering, Fourier‐transform infrared spectroscopy, differential thermal analysis, pressure perturbation calorimetry and densitometry) in the evaluation of the conformation of the protein and in evaluating the changes in the thermodynamic parameters upon unfolding, such as the heat capacity, enthalpy, entropy, volume, isothermal compressibility and expansivity. The calculated results of the free‐energy landscape of the protein are in good agreement with experimental data of the p,T‐stability diagram of the protein over a temperature range from 200 to 400 K and at pressures from ambient pressure to 4000 bar. The results demonstrate that combined temperature–pressure‐dependent studies can help delineate the free‐energy landscape of proteins and hence help elucidate which features and thermodynamic parameters are essential in determining the stability of the native conformational state of proteins. The approach presented may also be used for studying other systems with so‐called re‐entrant or Tamman loop‐shaped phase diagrams. 相似文献
998.
The silver iodate(VII), Ag5IO6, was obtained by reacting a stoichiometric mixture of Ag2O and KIO3, at elevated oxygen pressure, adding a small portion of distilled water. The synthesis was done at 673 K and 270 MPa of oxygen pressure. The crystal structure was solved by direct methods based on single crystal diffraction data ( , Z = 6, a = 5.9366(1), c = 32.1471(6) Å, 323 independent reflections, R1 = 2.31 %). According to conductivity measurements, Ag5IO6 is semiconducting with a specific resistance of 0.08 Ωcm at 300 K. The activation energy was determined as 7.4(1) meV in the temperature range of 220 – 300 K, and 4.3(1) meV in the temperature range of 90 – 180 K. The optical band gap for Ag5IO6 is 1.4 eV. Ag5IO6 is diamagnetic with a magnetic susceptibility of ?4.4×10?4 emu/mol. 相似文献
999.
A Setaram C-80 calorimeter has been modified in order to measure the heat flow of energetic materials at pressures up to 69 MPa. A manifold and sample cells capable of operating at high pressure were designed, constructed and evaluated. This paper will describe, in detail, the high pressure manifold construction, safety assessment and calibration. As well, the results for initial trials with ammonium nitrate (AN), and pentaerythritol tetranitrate (PETN) at various pressures and heating rates will be discussed. 相似文献
1000.
Yue Ming Zhou Jian Hua Ding Xie Zhang Huan Wen Chen 《中国化学快报》2007,18(1):115-117
Extractive electrospray ionization source(EESI)was adapted for ion-ion reaction,which was demonstrated by using a linear quadrupole ion trap mass spectrometer for the first ion-ion reaction of biopolymers in the atmospheric pressure ambient. 相似文献