55,659 research outputs found
An Expert System for Managing an Activated Sludge Wastewater Treatment Plant
A diagnostic expert system for an activated sludge wastewater treatment plant has been designed to link with a relational database management system for obtaining operational parameter values that are used by the program to diagnose operational problems that may occur in the process. The problems that are dealt with by the system are bulking sludge, floating sludge, defloculation, ashing, solids washout, foaming problems, high soluble effluent BOD and problems in the aeration system. The link between the expert system and the database is accomplished via programming that is initiated by the expert system program. The operator of the system is not required to perform any action in order for the appropriate retrievals of operational parameter values to occur. The system is designed such that parameter values are retrieved from the database if such a database exists and contains appropriate values and, if no such database exists or if the appropriate values are not present, the operator is queried for the parameter values. Since many wastewater treatment plants maintain database management systems for operational parameter values, such an expert system has advantages over stand alone systems. However, an override of the database query is possible, making the system useful for experimental queries and for training
Elimination of frequency shift in a multiplex communication system Patent
Multiplexed communication system design including automatic correction of transmission errors introduced by frequency spectrum shift
High speed phase detector Patent
High speed phase detector design indicating phase relationship between two square wave input signal
The Colour Changes In Lizards, Particularly In Phrynosoma
The activities of the melanophore system of Phrynosoma in comparison with that of Chamaeleo may be stated categorically in the following way.
I. The blanching of Phrynosoma blainvillii is due
(1) to the action of its concentrating nerve-fibres on its melanophores,
(2) to the action of a hydrohumour, probably adrenalin, on the same cells,
(3) to the direct response of these cells to darkness, and
(4) to high temperatures.
II. The blanching of Chamaeleo is due to the first, third, and fourth of these factors. Whether the second factor is effective in this lizard is not yet determined.
III. The darkening of Phrynosoma is due
(5) to the action of a pituitary neurohumour on its melanophores,
(6) to the direct response of these cells to strong light, and
(7) usually, to low temperatures.
There are no dispersing nerve-fibres known in Phrynosoma.
IV. The darkening of Chamaeleo is due to the sixth and probably to the seventh of these factors. This lizard presents strong indications of possessing dispersing nerve-fibres. Whether it darkens from a pituitary neurohumour or not is unknown
Hydraulic system provides smooth control of large tracking and antenna drive systems at very low tracking rates
Hydraulic system provides smooth control of large tracking and antenna drive systems at very low tracking rates. This configuration modifies a series connection of the drive motors with compensating orifices to offset the effects of drain line loss. Linearization of response by eliminating cogging or cyclic operation is thus obtained
Aligning Mathematics Curriculum to Create Potential for Active Learning in Pre-K Through Eighth Grade Teacher Education
In this paper, we consider some issues surrounding the teaching of mathematics to pre-service teachers. In particular. we look at the possibilities for teaching elementary mathematics from an advanced standpoint and alignments of curriculum that have the capacity to enhance student involvement in the making of the mathematics.The particulars of the James Madison University curriculum are used to illustrate many of the points
An Evaluation of the Effect of Discharging a High Quality Effluent into a Small Ozark Mountain Stream
Recently the newly constructed Fayetteville wastewater treatment plant went on line and directed a portion of its discharge to a point in the Mud Creek drainage basin that had previously not received any effluent. Prior to the discharge, a background study had been performed to establish the water quality in the basin. The background data, when compared to the data collected by this study, allowed any alteration of the stream water quality to be evaluated. Also the modeling procedure used to set the effluent limits for the treatment plant was analyzed. All stream data were compared to the limits set forth for surface water quality by the Department of Pollution Control and Ecology. The new discharge had some effect on the receiving stream, however, the stream still meets Arkansas water quality standards for all parameters
Irreversible energy flow in forced Vlasov dynamics
A recent paper [Phys. Plasmas 20, 032304 (2013)] considered the forced linear
Vlasov equation as a model for the quasi-steady state of a single stable plasma
wavenumber interacting with a bath of turbulent fluctuations. This approach
gives some insight into possible energy flows without solving for nonlinear
dynamics. The central result of the present work is that the forced linear
Vlasov equation exhibits asymptotically zero (irreversible) dissipation to all
orders under a detuning of the forcing frequency and the characteristic
frequency associated with particle streaming. We first prove this by direct
calculation, tracking energy flow in terms of certain exact conservation laws
of the linear (collisionless) Vlasov equation. Then we analyze the steady-state
solutions in detail using a weakly collisional Hermite-moment formulation, and
compare with numerical solution. This leads to a detailed description of the
Hermite energy spectrum, and a proof of no dissipation at all orders,
complementing the collisionless Vlasov result.Comment: Small changes for clarit
New atmospheric sensor analysis study
The functional capabilities of the ESAD Research Computing Facility are discussed. The system is used in processing atmospheric measurements which are used in the evaluation of sensor performance, conducting design-concept simulation studies, and also in modeling the physical and dynamical nature of atmospheric processes. The results may then be evaluated to furnish inputs into the final design specifications for new space sensors intended for future Spacelab, Space Station, and free-flying missions. In addition, data gathered from these missions may subsequently be analyzed to provide better understanding of requirements for numerical modeling of atmospheric phenomena
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