373 research outputs found
Dinámica y sedimentología de los depósitos de la avenida del río Júcar en octubre de 1982 en su tramo bajo
Los autores agradecen la ayuda prestada por el Departamento de
Geografía de la Universidad Literaria de Valencia que nos facilitaron
fotografías aéreas, mapas y diversas publicaciones, y a la Consejería
de Obras Públicas de la Comunidad Autónoma de Valencia que
facilitó las fotografías aéreas tomadas inmediatamente después de
la avenida de 1982 y mapas a escala 1: 10.000 y 1:25.000 de la zona.[ES] Se estudian los sedimentos depositados durante la avenida de 19,
20 y 21 de octubre de 1982 del río Júcar. Tanto por su morfología
como por sus características sedimentológicas se han separado dos
tramos del cauce: en el alto, confinado, se depositaron arenas antes
de la rotura de la presa de Tous y gravas después de la misma. En
el tramo bajo, no confinado y sobreelevado, se depositaron limos y
arenas finas.[EN] The deposits of the Jucar River flood event that took place on the
19,20 and 21st October, 1982 have been studied. The Alluvial valley
has been divided in two parts: one confined, just below the Tous Dam,
where sands were deposited before the collapse of the dam and gravels
after it; the lower part, unconfined and surelevated, only received
fine-grained sediments.Peer reviewe
Three-phase coexistence with sequence partitioning in symmetric random block copolymers
We inquire about the possible coexistence of macroscopic and microstructured
phases in random Q-block copolymers built of incompatible monomer types A and B
with equal average concentrations. In our microscopic model, one block
comprises M identical monomers. The block-type sequence distribution is
Markovian and characterized by the correlation \lambda. Upon increasing the
incompatibility \chi\ (by decreasing temperature) in the disordered state, the
known ordered phases form: for \lambda\ > \lambda_c, two coexisting macroscopic
A- and B-rich phases, for \lambda\ < \lambda_c, a microstructured (lamellar)
phase with wave number k(\lambda). In addition, we find a fourth region in the
\lambda-\chi\ plane where these three phases coexist, with different,
non-Markovian sequence distributions (fractionation). Fractionation is revealed
by our analytically derived multiphase free energy, which explicitly accounts
for the exchange of individual sequences between the coexisting phases. The
three-phase region is reached, either, from the macroscopic phases, via a third
lamellar phase that is rich in alternating sequences, or, starting from the
lamellar state, via two additional homogeneous, homopolymer-enriched phases.
These incipient phases emerge with zero volume fraction. The four regions of
the phase diagram meet in a multicritical point (\lambda_c, \chi_c), at which
A-B segregation vanishes. The analytical method, which for the lamellar phase
assumes weak segregation, thus proves reliable particularly in the vicinity of
(\lambda_c, \chi_c). For random triblock copolymers, Q=3, we find the character
of this point and the critical exponents to change substantially with the
number M of monomers per block. The results for Q=3 in the continuous-chain
limit M -> \infty are compared to numerical self-consistent field theory
(SCFT), which is accurate at larger segregation.Comment: 24 pages, 19 figures, version published in PRE, main changes: Sec.
IIIA, Fig. 14, Discussio
Role of Laboratory Education in Power Engineering: Is the Virtual Laboratory Feasible? Part I
IEEE PES sponsors a panel session in the summer power meeting in Seattle on laboratory education in power engineering. Six short papers and one full paper summarize the opinions of the panelist. This paper contains the summary of four of the presentations. The objective of the panel is to discuss the role of laboratory education in power engineering at both the graduate and undergraduate level. The question is what type of laboratory course is needed? Power electronics, electric machines, system simulation, etc? the second objective is to assess the status and value of computer based virtual laboratories. This includes the presentation of experience with virtual laboratories and a list of available tools. The teaching of power system operation can be improved using a simulation laboratory. The available simulation tools and the assessment of their values will be an important topic of the panel. The last presentation gives opposing views, arguing for the traditional laboratory us
Preliminary acoustic and oceanographic observations from the winter Primer experiment
A joint acoustics and physical oceanography experiment was conducted in the winter of 1997 on the shell break and continental
slope south of New England in the Middle Atlantic Bight (figure 1). This experiment, Primer4, provided a seasonal contrast to the
previous summer Primer3 experiment and had the same goals and tasks: to study the thermohaline variability and structure of the
shelfbreak front and its effects on acoustic propagation. To accomplish the linked oceanographic and acoustic objectives of this
experiment, a combination of measurements (fig 2) were made. Seasoar hydrography, shipboard ADCP measurements, Satellite IR
sea surface temperature field observations, and AXT drops were employed to study the larger scale oceanographic fields. To study
the finer scale, which includes internal waves, a number of rapid-sampling thermistor strings and current meters, including a
moored, upward looking ADCP, were deployed. The acoustics components consisted of three 400 Hz tomography transceivers, a
224 Hz source and two hydrophone arrays. To study the geoacoustic parameters in the bottom a number of SUS charges were also
deployed. The field setup was approximately the same for both the summer 1996 and winter 1997 experiments; however the
weather conditions and the thermal structure of the mixed layer were radically different. This report is dedicated to the data from the
Winter 1997 Primer4 experiment.Funding was provided by the Offce of Naval Research under Contract No. NOOOl4-98-10413
Light Ions Response of Silicon Carbide Detectors
Silicon carbide (SiC) Schottky diodes 21 mum thick with small surfaces and
high N-dopant concentration have been used to detect alpha particles and low
energy light ions. In particular 12C and 16O beams at incident energies between
5 and 18 MeV were used. The diode active-region depletion-thickness, the
linearity of the response, energy resolution and signal rise-time were measured
for different values of the applied reverse bias. Moreover the radiation damage
on SiC diodes irradiated with 53 MeV 16O beam has been explored. The data show
that SiC material is radiation harder than silicon but at least one order of
magnitude less hard than epitaxial silicon diodes. An inversion in the signal
was found at a fluence of 10^15 ions/cm^2.Comment: 20 pages, 16 figures, submitted for publication to Nuclear
Instruments and Methods in Physics Research
Shift of microbial communities and reduced enzymatic activity in soil under plastic mulching system in strawberry cultivation
The use of plastic mulching (PM) in agriculture has strongly increased in the last years. Improved water saving and higher soil temperature are some advantages of this management. Yet, an intensive use of PM has been recently linked to negative effects on soil quality. The aim of this study is thus to assess the effects of long-term plastic mulching (PM) on soil microbial indicators. PM was compared with the use of wheat straw mulching (SM), an also widely used mulch material. Samples were collected at two depths (0-5 and 5-10 cm) from strawberry fields, after 4-year management. Cultivation in PM and SM was done in a ridge-furrow system with subsurface irrigation. Soil characterization comprised soil texture and aggregate stability, soil organic carbon, pH and water content. Soil microbial analysis included: Soil microbial biomass (Cmic), a fraction of soil cultivable fungi (CFU values), soil bacteria (16S rRNA), denitrifying community (nirK, nirS, narG, napA genes), soil enzyme activity (C-Chitinase, P-Phosphatase and N Leucine-aminopeptidase), deoxynivalenol (DON) content and Cmic:Corg ratio. Positive effects on soil physicochemical properties were observed under PM as compared to SM, reflected by a higher soil carbon content and better aggregate stability (p>0.05). Yet, soil microbial analysis revealed some differences between managements. Cmic values were comparable in both systems, showing no differences in soil microbial biomass. In the same way, the analysis of functional genes of the N cycle and the activity of the enzymes P-Phosphatase and N Leucine-aminopeptidase was not affected by the mulching treatment. But, the abundance of bacteria (18%) and a fraction of soil cultivable fungi were reduced by respectively 18 and 62% under PM. Since the Cmic values remained similar between treatments, this accounts for a shift of microbial communities under PM. Additionally, C-Chitinase activity declined under PM. Interestingly, this enzyme correlated positively with CFU values (r=0.781, p=0.001), suggesting that a reduction of the activity is a consequence of the reduction of the fungal biomass. Additionally, a higher deoxynivalenol concentration (2.2 ± 2.4 µg kg-1) and a reduced Cmic:Corg ratio (1.3±0.3%) were observed under PM, indicative of less appropriate soil conditions after long-term PM management
- …