678 research outputs found
Military markets for solar thermal electric power systems
The Department of Defense maintains an inventory of over 1,800 MW of engine-generators 15 KW and larger, with an estimated procurement rate of over 140 MW/year. Nearly the entire requirement could be met by advanced heat engines of the types being developed as point-focussing, distributed receiver power plants. A conceptual system consisting of a heat engine which efficiently burns liquid fossil or synthetic fuels, with a 'solarization kit' for conversion to hybrid solar operation could meet existing DOD requirements for new systems which are quieter, lighter, and multi-fueled. An estimated 24 percent (33 MW/year) or more could operationally benefit from the solar option. Baseline cost projections indicate levelized energy cost goals of 210 to 120 mills/KWh (15 to 1000 KW systems). Fuel cost escalation is the major factor affecting the value of the solar option. A baseline calculation for fuel at 2700/KWe for a solarization kit
USAF solar thermal applications overview
Process heat applications were compared to solar thermal technologies. The generic process heat applications were analyzed for solar thermal technology utilization, using SERI's PROSYS/ECONOMAT model in an end use matching analysis and a separate analysis was made for solar ponds. Solar technologies appear attractive in a large number of applications. Low temperature applications at sites with high insolation and high fuel costs were found to be most attractive. No one solar thermal technology emerges as a clearly universal or preferred technology, however,, solar ponds offer a potential high payoff in a few, selected applications. It was shown that troughs and flat plate systems are cost effective in a large number of applications
A Fresnel collector process heat experiment at Capitol Concrete Products
An experiment is planned, conducted and evaluated to determine the feasibility of using a Power Kinetics' Fresnel concentrator to provide process heat in an industrial environment. The plant provides process steam at 50 to 60 psig to two autoclaves for curing masonry blocks. When steam is not required, the plant preheats hot water for later use. A second system is installed at the Jet Propulsion Laboratory parabolic dish test site for hardware validation and experiment control. Experiment design allows for the extrapolation of results to varying demands for steam and hot water, and includes a consideration of some socio-technical factors such as the impact on production scheduling of diurnal variations in energy availability
A Dynamic Model for Thick Plates with Time-dependent Boundary Conditions
In this paper a dynamic model for thick plates with dynamic boundary conditions is established. In addition to the influences of the bending the transverse shear deformation and the rotatory inertia has been included. The model also contains the effects of the transverse normal stress and the membrane forces. The equations presented in this paper can be reduced to those based on the Mindlin plate theory and the classical plate theory. The numerical results demonstrate that the influence of the transverse normal stress is quite significant for the dynamic response of thick plates with dynamic boundary conditions
Liquid-Gas Phase Transition in Nuclear Equation of State
A canonical ensemble model is used to describe a caloric curve of nuclear
liquid-gas phase transition. Allowing a discontinuity in the freeze out density
from one spinodal density to another for a given initial temperature, the
nuclear liquid-gas phase transition can be described as first order. Averaging
over various freeze out densities of all the possible initial temperatures for
a given total reaction energy, the first order characteristics of liquid-gas
phase transition is smeared out to a smooth transition. Two experiments, one at
low beam energy and one at high beam energy show different caloric behaviors
and are discussed.Comment: 12 pages in Revtex including two Postscript figure
Liquid-gas phase transition in finite nuclei
In a finite temperature Thomas-Fermi framework, we calculate density
distributions of hot nuclei enclosed in a freeze-out volume of few times the
normal nuclear volume and then construct the caloric curve, with and without
inclusion of radial collective flow. In both cases, the calculated specific
heats show a peaked structure signalling a liquid-gas phase transition.
Without flow, the caloric curve indicates a continuous phase transition whereas
with inclusion of flow, the transition is very sharp. In the latter case, the
nucleus undergoes a shape change to a bubble from a diffuse sphere at the
transition temperature.Comment: Proc. of 6th Int. Conf. on N-N Collisions (Gatlinburg); Nuclear
Physics A (in press
The impact of triggers on forensic acquisition and analysis of databases
An aspect of database forensics that has not received much attention in the academic
research community yet is the presence of database triggers. Database triggers and their
implementations have not yet been thoroughly analysed to establish what possible impact they could
have on digital forensic analysis methods and processes. This paper firstly attempts to establish if
triggers could be used as an anti-forensic mechanism in databases to potentially disrupt or even thwart
forensic investigations. Secondly, it explores if triggers could be used to manipulate ordinary database
actions for nefarious purposes and at the same time implicate innocent parties. The database triggers
as defined in the SQL standard were studied together with a number of database trigger
implementations. This was done in order to establish what aspects of a trigger might have an impact
on digital forensic analysis. It is demonstrated in this paper that certain database forensic acquisition
and analysis methods are impacted by the possible presence of non-data triggers. This is specific to
databases that provide non-data trigger implementations. Furthermore, it finds that the forensic
interpretation and attribution processes should be extended to include the handling and analysis of all
database triggers. This is necessary to enable a more accurate attribution of actions in all databases
that provide any form of trigger implementations.“The Role of Triggers in Database Forensics”, by Werner Hauger and Martin Olivier which appeared in the Proceedings of Information Security South
African (ISSA) 2014, Johannesburg, 13 & 14 August 2014.http://www.saiee.org.za/DirectoryDisplay/DirectoryCMSPages.aspx?name=Publications#id=1588&dirname=ARJ&dirid=337am2016Computer Scienc
NoSQL databases : forensic attribution implications
NoSQL databases have gained a lot of popularity over the last few years. They are now
used in many new system implementations that work with vast amounts of data. Such data will
typically also include sensitive information that needs to be secured. NoSQL databases are also
underlying a number of cloud implementations which are increasingly being used to store sensitive
information by various organisations. This has made NoSQL databases a new target for hackers and
other state sponsored actors. Forensic examinations of compromised systems will need to be conducted
to determine what exactly transpired and who was responsible. This paper examines specifically if
NoSQL databases have security features that leave relevant traces so that accurate forensic attribution
can be conducted. The seeming lack of default security measures such as access control and logging
has prompted this examination. A survey into the top ranked NoSQL databases was conducted to
establish what authentication and authorisation features are available. Additionally the provided logging
mechanisms were also examined since access control without any auditing would not aid forensic
attribution tremendously. Some of the surveyed NoSQL databases do not provide adequate access
control mechanisms and logging features that leave relevant traces to allow forensic attribution to be
done using those. The other surveyed NoSQL databases did provide adequate mechanisms and logging
traces for forensic attribution, but they are not enabled or configured by default. This means that in
many cases they might not be available, leading to insufficient information to perform accurate forensic
attribution even on those databases.http://www.saiee.org.za/DirectoryDisplay/DirectoryCMSPages.aspx?name=Publications#id=1588&dirname=ARJ&dirid=337am2019Computer Scienc
Temperature determination from the lattice gas model
Determination of temperature from experimental data has become important in
searches for critical phenomena in heavy ion collisions. Widely used methods
are ratios of isotopes (which rely on chemical and thermal equilibrium),
population ratios of excited states etc. Using the lattice gas model we propose
a new observable: where is the charge multiplicity and
is the charge of the fragmenting system. We show that the reduced multiplicity
is a good measure of the average temperature of the fragmenting system.Comment: 11 pages, 2 ps file
An investigation of standard thermodynamic quantities as determined via models of nuclear multifragmentation
Both simple and sophisticated models are frequently used in an attempt to
understand how real nuclei breakup when subjected to large excitation energies,
a process known as nuclear multifragmentation. Many of these models assume
equilibriumthermodynamics and produce results often interpreted as evidence of
a phase transition. This work examines one class of models and employs standard
thermodynamical procedure to explore the possible existence and nature of a
phase transition. The role of various terms, e.g. Coulomb and surface energy,
is discussed.Comment: 19 two-column format pages with 24 figure
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