Reservoir Optimization Operation considering Regulating Temperature Stratification for a Deep Reservoir in Early Flood Season

The clogging of emitters, orifices or laterals has turned out to be the main obstacle for further use of low rate applicators in wastewater irrigation. Granular filtration and screen filtration were studied and compared for particulate removal using small-scale pilot experiments. The removal ratio of particles larger than 10 µm in direct granular filtration was relatively large while smaller particles showed little removal. Particles in the 10-60µm size range were removed by 40–50 percent in depth and by 80 percent when surface filtration prevailed. Screen filters removed only 1–2 percent of the material but this was sufficient to cause their clogging. A release of particles from the screen into the effluent was observed, resulting in greater number of larger particles and thus greater clogging potential down the irrigation line. Deep-bed granular coarse media filters may serve for the control of particle size in effluents of oxidation ponds - deep reservoir systems while the conventional strainers are less recommended for this purpose.

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Hydrogeochemical Characterization as a Tool to Recognize “Masked Geothermal Waters” in Bahía Concepción, Mexico

Resources ◽

10.3390/resources10030023 ◽

2021 ◽

Vol 10 (3) ◽

pp. 23

Author(s):

Pablo Hernández-Morales ◽

Jobst Wurl ◽

Carlos Green-Ruiz ◽

Diego Morata

Keyword(s):

Spatial Distribution ◽

Thermal Water ◽

Elevated Temperatures ◽

Ph Value ◽

Spring Water ◽

Geothermal Resources ◽

Geothermal Waters ◽

New Approach ◽

Deep Reservoir ◽

Hydrogeochemical Characterization

Geo-thermalism has been widely recognized on the Baja California Peninsula, especially during the last decade. The current research, carried out on Bahia Concepcion, evidences the existence of geothermal springs, which get recharged mainly by groundwater and seawater. The groundwater can be characterized as Na+-Cl− and Na+-HCO3− type, with a pH value close to neutrality. The slightly more acidic thermal sites presented temperatures between 32 °C and 59 °C at the surface. Based on the relationships of the Cl− and Br−, as well as the B/Cl−, and Br−/Cl− ratios, seawater was recognized as the main source of salinity. The spatial distribution is explained directly through marine intrusion, or via sprays and aerosols within the rainwater. Seawater ratios in thermal springs varied from 62% to 83%, corresponding mainly to shallow inflow, but seawater inputs into the deep thermal reservoir were also recognized. Temperatures in the geothermal deep reservoir were inferred from 114 to 209 °C, calculated through the SiO2 and Na+-K+ geothermometers. In addition to previously reported thermal sites at Bahía Concepción, and based on their elevated temperatures, two new sites were identified. Another five springs do not fulfill the commonly used definition, based on differential temperature, but show the typical hydrogeochemical signature of thermal water. A new approach to identify this low-temperature geothermal-influenced spring water by its hydrogeochemical composition is presented, for which the term “Masked Geothermal Waters” (MGW) is introduced. Our findings increase the area of the geothermal anomaly and, therefore, the potential of geothermal resources. The approach proposed in this research will also be useful to identify more MGW in other coastal areas.

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Improving real-time reservoir operation during flood season by making the most of streamflow forecasts

Journal of Hydrology ◽

10.1016/j.jhydrol.2021.126017 ◽

2021 ◽

Vol 595 ◽

pp. 126017

Author(s):

Jiabiao Wang ◽

Tongtiegang Zhao ◽

Jianshi Zhao ◽

Hao Wang ◽

Xiaohui Lei

Keyword(s):

Real Time ◽

Reservoir Operation ◽

Flood Season ◽

Streamflow Forecasts

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Influence of manikin movement on temperature stratification in a displacement ventilated room

Energy and Buildings ◽

10.1016/j.enbuild.2020.110700 ◽

2021 ◽

pp. 110700

Author(s):

Feng Lu ◽

Zeng Fanxing ◽

Li Ruibin ◽

Ju Ran ◽

Gao Naiping

Keyword(s):

Temperature Stratification

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Optimal Operation of Floodwater Resources Utilization of Lakes in South-to-North Water Transfer Eastern Route Project

Sustainability ◽

10.3390/su13094857 ◽

2021 ◽

Vol 13 (9) ◽

pp. 4857

Author(s):

Zitong Yang ◽

Xianfeng Huang ◽

Jiao Liu ◽

Guohua Fang

Keyword(s):

Water Level ◽

Resource Utilization ◽

Flood Control ◽

Optimal Operation ◽

Water Transfer ◽

Water Levels ◽

Reservoir Storage ◽

Flood Season ◽

Hongze Lake ◽

North Water

In order to meet the demand of emergency water supply in the northern region without affecting normal water transfer, considering the use of the existing South-to-North Water Transfer eastern route project to explore the potential of floodwater resource utilization in the flood season of Hongze Lake and Luoma Lake in Jiangsu Province, this paper carried out relevant optimal operating research. First, the hydraulic linkages between the lakes were generalized, then the water resources allocation mode and the scale of existing projects were clarified. After that, the actual available amount of flood resources in the lakes was evaluated. The average annual available floodwater resources in 2003–2017 was 1.49 billion m3, and the maximum available capacity was 30.84 billion m3. Then, using the floodwater resource utilization method of multi period flood limited water levels, the research period was divided into the main flood season (15 July to 15 August) and the later flood season (16 August to 10 September, 11 September to 30 September) by the Systematic Clustering Analysis method. After the flood control calculation, the limited water level of Hongze Lake in the later flood season can be raised from 12.5 m to 13.0 m, and the capacity of reservoir storage can increase to 696 million m3. The limited water level of Luoma Lake can be raised from 22.5 m to 23.0 m (16 August to 10 September), 23.5 m (11 September to 30 September), and the capacity of reservoir storage can increase from 150 to 300 million m3. Finally, establishing the floodwater resource optimization model of the lake group with the goals of maximizing the floodwater transfer amount and minimizing the flood control risk rate, the optimal water allocation scheme is obtained through the optimization algorithm.

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Development of new novel constitutive model for deep reservoir sandstone rock for sand production application

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/1051/1/012093 ◽

2021 ◽

Vol 1051 (1) ◽

pp. 012093

Author(s):

S K Subbiah ◽

A Mohamad-Hussein ◽

A Samsuri ◽

M Z Jaafar ◽

Y R Chen ◽

...

Keyword(s):

Constitutive Model ◽

Sand Production ◽

New Novel ◽

Sandstone Rock ◽

Deep Reservoir

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