Study on Cooling Water Temperature Simulation for Multiple Projects in Forked Bays

Hong Bo Zhao; Ting Xu; Bing Yan

doi:10.4028/www.scientific.net/AMR.765-767.3027

Paper Titles

Construction of Commercial Age of Enterprises in Eco-Industrial Parks - A Case Study of Xishan Eco-Industrial Park
p.3007

The Investigation for the Purification of a Recycling Aquaculture System
p.3013

Heat and Mass Transfer Analysis of Mine Exhaust Air Heat Exchanger
p.3018

Study on Knowledge Based System for Integrated Water Resources and Environment Management at County Level
p.3023

Study on Cooling Water Temperature Simulation for Multiple Projects in Forked Bays
p.3027

Evaluation and Policies of Information-Based Freeway Projects under Low-Carbon Economy
p.3032

Research of Drying Characteristics of Thompson Seedless Grape
p.3036

Characteristics and Development Ways of Green Building Materials
p.3042

The Application of Dynamic Programming in the System Optimization of Environmental Problem
p.3045

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 765-767Study on Cooling Water Temperature Simulation for...

Study on Cooling Water Temperature Simulation for Multiple Projects in Forked Bays

Abstract:

Cooling water from some plant raises the water temperature. It disrupts the water environment balance, and affects the cooling efficiency of the plant. Therefore, it is important to learn the water environment temperature and predict temperature rise design outfall for feasibility of project. In the project sea area, there are some outfalls existed, so it is possible that the water temperature will be higher than the design value of the project and influence water environment further. In this paper, based on site survey data, the feasibility study are carried out by mathematic model simulation. The result shows that the byland make the water of two parts in the bay exchange rarely. The water temperature of CTA intake is below design temperature, and the water temperature of cooling water of CTA mainly influences about 1 km area that no serious influence to other intakes.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 765-767)

Pages:

3027-3031

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.765-767.3027

Citation:

Cite this paper

Online since:

September 2013

Authors:

Hong Bo Zhao, Ting Xu, Bing Yan

Keywords:

Cooling Water, Mathematics Model, Water Temperature

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Harleman D. R. F., Hall L. C. Thermal Diffusion of Condenser Water in A River During Steady and Unsteady Flows with Application to the T.V.A. Browns Ferry Nuclear Power Plant [J]. Hydrodynamics Laboratory Report, 1968( 3): 98-115.

Google Scholar

[2] McGuirk J. J., Rodi W. A Depth averaged Mathematical Model for Near Field of Side Discharges into Open channel Flow [J]. Fluid Mech., 1978(86): 761-781.

DOI: 10.1017/s002211207800138x

Google Scholar

[3] Kim, D. G. and Seo, I. W. Modeling the mixing of heated water discharged from a submerged multiport diffuser[J]. Journal of Hydraulic Research, 2000, 38(4): 259-269.

DOI: 10.1080/00221680009498325

Google Scholar

[4] Jiang J., Fissel D. B., Lemon D. D. Modeling Cooling Water Discharges From the Burrard Generating Station [M]: Presented at oceans 2002, (2002).

DOI: 10.1109/oceans.2002.1191861

Google Scholar

[5] Zhao Hongbo, Xu Ting, Yan Bing. 2-D Current, Cooling Water Draining Mathematic Model Test and Sediment Deposition Computation Research on Kalimantan Coal to Ammonia Project Bontang, East Kalimantan, Indonesia. Tianjin Research Institute of Water Transport Engineering (2009).

Google Scholar