36,292 research outputs found
Shock reflection and surface effects in the shock tube
A thin-film resistance thermometer, mounted on
the end-wall of a shock tube, is used to record
surface temperatures and heat transfer rates following
reflection of the primary shock wave.
This information is combined with the results of
theoretical investigations to produce simultaneous
information about surface accommodation effects and
gas thermal conductivities at high pressures and
moderate temperatures
Development and demonstration of a renewable energy based demand/supply decision support tool for the building design profession
Future cities are likely to be characterised by a greater level of renewable energy systems deployment. Maximum impact will be achieved when such systems are used to offset local energy demands in contrast to current philosophy dictating the grid connection of large schemes. This paper reports on the development of a software tool, MERIT, for demand/ supply matching. The purpose of MERIT is to assist with the deployment of renewable energy systems at all scales. This paper describes the procedures used to match heterogeneous supply technologies to a set of demand profiles corresponding to the different possible fuel types
Development of a simulation-based decision support tool for renewable energy integration and demand-supply matching
This paper describes a simulation-based decision support tool, MERIT, which has been developed to assist in the assessment of renewable energy systems by focusing on the degree of match achievable between energy demand and supply. Models are described for the prediction of the performance of PV, wind and battery technologies. These models are based on manufacturers' specifications, location-related parameters and hourly weather data. The means of appraising the quality of match is outlined and examples are given of the application of the tool at the individual building and community levels
Predicting adaptive responses - simulating occupied environments
Simulation of building performance is increasingly being used in design practice to predict comfort of occupants in finished buildings. This is an area of great uncertainty: what actions does a person take when too warm or suffering from glare; how is comfort measured; how do groups of people interact to control environmental conditions, etc? An increasing attention to model these issues is evident in current research. Two issues are covered in this paper: how comfort can be assessed and what actions occupants are likely to make to achieve and maintain a comfortable status. The former issue describes the implementation of existing codes within a computational framework. This is non-trivial as information on local air velocities, radiant temperature and air temperature and relative humidity have to be predicted as they evolve over time in response to changing environmental conditions. This paper also presents a nascent algorithm for modelling occupant behaviour with respect to operable windows. The algorithm is based on results of several field studies which show the influence of internal and external temperatures on decision making in this respect. The derivation and implementation of the algorithm is discussed, highlighting areas where further effort could be of benefit
Scenarios for the Origin of the Orbits of the Trans-Neptunian Objects 2000 CR105 and 2003 VB12
Explaining the origin of the orbit of 2000 CR105 (a ~ 230AU, q ~ 45AU) is a
major test for our understanding of the primordial evolution of the outer Solar
System. Gladman et al. (2001) showed that this objects could not have been a
normal member of the scattered disk that had its perihelion distance increased
by chaotic diffusion. In this paper we explore four seemingly promising
mechanisms for explaining the origin of the orbit of this peculiar object: (i)
the passage of Neptune through a high-eccentricity phase, (ii) the past
existence of massive planetary embryos in the Kuiper belt or the scattered
disk, (iii) the presence of a massive trans-Neptunian disk at early epochs
which exerted tides on scattered disk objects, and (iv) encounters with other
stars. Of all these mechanisms, the only one giving satisfactory results is the
passage of a star. Indeed, our simulations show that the passage of a solar
mass star at about 800 AU only perturbs objects with semi-major axes larger
than roughly 200 AU to large perihelion distances. This is in good agreement
with the fact that 2000 CR105 has a semi-major axis of 230AU and no other
bodies with similar perihelion distances but smaller semi-major axes have yet
been discovered. The discovery of 2003 VB12, (a=450AU, q=75AU) announced a few
days before the submission of this paper, strengthen our conclusions.Comment: AJ submitted. 27 pages, 6 figure
Periodic photometric variability of the brown dwarf Kelu-1
We have detected a strong periodicity of 1.80+/-0.05 hours in photometric
observations of the brown dwarf Kelu-1. The peak-to-peak amplitude of the
variation is ~1.1% (11.9+/-0.8 mmag) in a 41nm wide filter centred on 857nm and
including the dust/temperature sensitive TiO & CrH bands. We have identified
two plausible causes of variability: surface features rotating into- and
out-of-view and so modulating the light curve at the rotation period; or,
elliposidal variability caused by an orbiting companion. In the first scenario,
we combine the observed vsin(i) of Kelu-1 and standard model radius to
determine that the axis of rotation is inclined at 65+/-12 degrees to the line
of sight.Comment: 7 pages, 9 figures. Accepted for publication in MNRA
Relaxation effects on the flow over slender bodies
The effects of heat capacity lag on the flow over slender bodies are
examined via an extension of Ward's (1949) generalised treatment of
the slender body problem. The results are valid for smooth bodies of
arbitrary cross-sectional shape and attitude in the complete Mach
number range up to, but not including, hypersonic. Transonic flow can
be treated owing to the presence of a dissipative mechanism in the basic
differential equation, but the results in this Mach number range are
probably of limited practical value.
The results show that cross-wind forces are unaffected in a first
approximation, but that drag forces comparable with laminar skin friction
values can arise as a result of the relaxation of the internal degrees of
freedom. The magnitude and sign of these effects depend strongly on
body shape and free stream Mach number.
Results are given for surface pressure coefficient and the variations
of translational and internal mode temperature on and near the body are
also found. The influence of these latter effects on heat transfer to the
body is discussed
Heat conduction through a gas with one inert internal mode
The rate of energy transfer between parallel flat plates is evaluated
when the (stagnant) gas between them is polyatomic with one inert internal
mode. Deviations of the thermal conductivity from the complete equilibrium
(Eucken) value are expressed in terms of the inert mode relaxation time
and the effectiveness of the walls in exciting or de-exciting this mode.
The results are obtained via a linear theory consistent with small
temperature differences between the plates.
It is found that the Eucken-value of conductivity could be exceeded
if the relaxation times are non-zero and the plates very effective in
exciting the inert mode. 1Nhen relaxation times are very short the effect
of the walls on the energy transfer rate is small, but the malls make
their presence felt by distorting the temperature profiles in "boundary
layers" adjacent to the walls which are of order VDT in thickness
(D = diffusion coefficient, r = relaxation time). This result is
analogous to Hirschfelderts (1956) for the case of chemical reactions.
For experimental measurement of conductivity in a hot wire cell type
of apparatus it is shown that extrapolation of measured reciprocal
conductivities to zero reciprocal pressure should lead to the full Eucken
value. It is also shown that the slope of reciprocal apparent (measured)
conductivity versus reciprocal pressure curves is a function of relaxation
time as well as of the accommodation coefficients. It is quite possible
that the relaxation effect here is comparable with the temperature jump
effects, even for rotation in diatomic molecules
Merit - An evaluation tool for 100% renewable energy provision
Islands represent an interesting challenge in terms of energy supply. A great deal of work has been carried out to look at specific aspects of this issue on different islands. Unfortunately, results from one study cannot be easily applied to other islands due to island-specific resources and energy-use profiles. A quantitative evaluation tool (MERIT) is presented here, which is able to match half-hourly energy demands (heat, electricity, hot water and transport) with local supplies. The program examines the energy balance on any scale, from an individual building through to an entire country, thereby providing a powerful and generic aid to decision making. This paper demonstrates the generality and usefulness of MERIT by using it to analyse the options for creating an energy-autonomous community on a typical, small island off the west coast of Scotland. Results are presented showing the feasibility of accomplishing 100% renewable provision on this island using available local resources
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