Digital model of corrected accumulated flow for peak discharge data acquisition and drainage system design

National design guides provide essential guidance for the design of building drainage systems, which primarily ensure the basic objectives of preventing odor ingress and cross-transmission of disease through water-trap seal retention. Current building drainage system design guides only extend to buildings of 30 floors, while modern tall buildings frequently extend to over 100 floors, exceeding the predictive capability of current design guides in terms of operating system conditions. However, the same design guides are being used for tall buildings as would be used for low-rise buildings. A complicating factor is the historic roots of current design guides and standards (including the interpretation of the governing fluid mechanics principles and margins of safety), causing many design differences to exist for the same conditions internationally, such as minimum trap seal retention requirements, stack-to-vent cross-vent spacing, and even stack diameter. The design guides also differ in the size and scale of the systems they cover, and most make no allowance for the specific building drainage system requirements of tall buildings. This paper assesses the limitations of applying current building drainage system design guides when applied to the case of tall buildings. Primarily, the assessments used in this research are based on codes from Europe, the USA and Australia/New Zealand as representative of the most common approaches and from which many other codes and standards are derived. The numerical simulation model, AIRNET, was used as the analysis tool. Our findings confirm that current design guides, which have been out of date for a number of decades, are now in urgent need of updating as code-compliant systems have been shown to be susceptible to water-trap seal depletion, a risk to cross-transmission of disease, which is a major public health concern, particularly in view of the current COVID-19 pandemic.

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Benefits and limitations of data assimilation for discharge forecasting using an event-based rainfall–runoff model

Natural Hazards and Earth System Science ◽

10.5194/nhess-13-583-2013 ◽

2013 ◽

Vol 13 (3) ◽

pp. 583-596 ◽

Cited By ~ 15

Author(s):

M. Coustau ◽

S. Ricci ◽

V. Borrell-Estupina ◽

C. Bouvier ◽

O. Thual

Keyword(s):

Data Assimilation ◽

Hydrological Model ◽

Peak Discharge ◽

State Variables ◽

Rainfall Runoff ◽

Discharge Data ◽

Southern France ◽

Flood Peak ◽

Event Based ◽

The Impact

Abstract. Mediterranean catchments in southern France are threatened by potentially devastating fast floods which are difficult to anticipate. In order to improve the skill of rainfall-runoff models in predicting such flash floods, hydrologists use data assimilation techniques to provide real-time updates of the model using observational data. This approach seeks to reduce the uncertainties present in different components of the hydrological model (forcing, parameters or state variables) in order to minimize the error in simulated discharges. This article presents a data assimilation procedure, the best linear unbiased estimator (BLUE), used with the goal of improving the peak discharge predictions generated by an event-based hydrological model Soil Conservation Service lag and route (SCS-LR). For a given prediction date, selected model inputs are corrected by assimilating discharge data observed at the basin outlet. This study is conducted on the Lez Mediterranean basin in southern France. The key objectives of this article are (i) to select the parameter(s) which allow for the most efficient and reliable correction of the simulated discharges, (ii) to demonstrate the impact of the correction of the initial condition upon simulated discharges, and (iii) to identify and understand conditions in which this technique fails to improve the forecast skill. The correction of the initial moisture deficit of the soil reservoir proves to be the most efficient control parameter for adjusting the peak discharge. Using data assimilation, this correction leads to an average of 12% improvement in the flood peak magnitude forecast in 75% of cases. The investigation of the other 25% of cases points out a number of precautions for the appropriate use of this data assimilation procedure.

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Design and Realization of the Demonstration System for Monitoring Tobacco by Remote Sensing

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.278-280.1870 ◽

2013 ◽

Vol 278-280 ◽

pp. 1870-1873

Author(s):

Zhi Gang Ling ◽

Yu Peng Li ◽

Zi Qiang Ma ◽

Xiang Liu ◽

Zheng Gui Gou ◽

...

Keyword(s):

Remote Sensing ◽

Data Acquisition ◽

System Design ◽

Data Organization ◽

Yield Estimation ◽

3S Technology ◽

Key Technologies ◽

Design Ideas

The demonstration system of tobacco monitoring by remote sensing was made with use of the characteristics and advantages of 3S technology. This paper describes the function of the system design ideas and main display functions such as estimation planting area of tobacco, monitoring tobacco growing and yield estimation of tobacco. The key technologies of the system are data acquisition, preprocessing and data organization.

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Determining the extent of pressurized flow beneath Storglaciären, Sweden, using results of tracer experiments and measurements of input and output discharge

Journal of Glaciology ◽

10.3189/s0022143000016129 ◽

1995 ◽

Vol 41 (138) ◽

pp. 217-231 ◽

Cited By ~ 2

Author(s):

Jack Kohler

Keyword(s):

Open Channel ◽

Drainage System ◽

Tracer Tests ◽

Tracer Experiment ◽

Northern Sweden ◽

Discharge Data ◽

Input And Output ◽

Valley Glacier ◽

Small Valley ◽

Tracer Experiments

AbstractTwo experiments were conducted on the drainage system beneath the Lower part of the ablation zone of Storglaciären, a small valley glacier in northern Sweden. In the first experiment, over 70 tracer tests were performed in a cluster of moulins during a 1 month period, at sub-daily intervals. In the second experiment, input- and output-discharge signals were measured on the supraglacial melt stream emptying into a moulin and on the proglacial stream to which the moulin drains. The data from these two experiments are used in an idealized model of the subglacial drainage system to calculate the percentage of the system flowing as an open channel. Results from the tracer experiment suggest that the system is pressurized to within 60-340 m of the snout, while analysis of the discharge data indicates pressurized ronduits to within 0-415 m of the snout.

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High-speed Data Acquisition system design

2006 1st International Symposium on Systems and Control in Aerospace and Astronautics ◽

10.1109/isscaa.2006.1627481 ◽

2006 ◽

Cited By ~ 2

Author(s):

A.K. Choubey ◽

R. Raushan ◽

V.M. kumar

Keyword(s):

Data Acquisition ◽

System Design ◽

High Speed ◽

Data Acquisition System ◽

Acquisition System ◽

High Speed Data Acquisition ◽

High Speed Data

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Streaming Readout of the CLAS12 Forward Tagger Using TriDAS and JANA2

EPJ Web of Conferences ◽

10.1051/epjconf/202125104011 ◽

2021 ◽

Vol 251 ◽

pp. 04011

Author(s):

Fabrizio Ameli ◽

Marco Battaglieri ◽

Mariangela Bondí ◽

Andrea Celentano ◽

Sergey Boyarinov ◽

...

Keyword(s):

Electron Beam ◽

Data Acquisition ◽

System Design ◽

Processing System ◽

Data Acquisition System ◽

Prototype System ◽

Data Acquisition Systems ◽

Event Filtering ◽

Offline Analysis ◽

And Performance

An effort is underway to develop streaming readout data acquisition system for the CLAS12 detector in Jefferson Lab’s experimental Hall-B. Successful beam tests were performed in the spring and summer of 2020 using a 10GeV electron beam from Jefferson Lab’s CEBAF accelerator. The prototype system combined elements of the TriDAS and CODA data acquisition systems with the JANA2 analysis/reconstruction framework. This successfully merged components that included an FPGA stream source, a distributed hit processing system, and software plugins that allowed offline analysis written in C++ to be used for online event filtering. Details of the system design and performance are presented.

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