A Significance Approach Between Patterns of Water River Flow Rate to the Exploitation of Power Generated in Small Hydropower System

2017 ◽  
Vol 11 (11) ◽  
pp. 831
Author(s):  
Mashitah Razi ◽  
M. Y. Asri ◽  
B. T. Tee ◽  
K. A. Zakaria
Keyword(s):  
Flow Rate ◽  
River Flow ◽  
Small Hydropower ◽  
Hydropower System

scholarly journals Feasibility Evaluation of Micro-Hydropower System Generation for Different Types of Sewage Treatment Plants

2019 ◽  
Vol 8 (4) ◽  
pp. 6338-6341
Keyword(s):  
Water Flow ◽  
Flow Rate ◽  
Sewage Treatment ◽  
Small Scale ◽  
Small Hydropower ◽  
Discharge Flow ◽  
Sewage Treatment Plants ◽  
Discharge Flow Rate ◽  
Hydropower System ◽  
Effluent Discharge

Small scale hydropower is among the most attractive and cost-effective sustainable energy technologies available, by harnessing electricity through moving water. Naturally, moving water can be found in rivers and also man-man conduits where there is a continuous water flow. The sewage treatment facility has continuous water flow at the effluent pipe that can generate electricity by means of small-hydropower system. However, there are no sewage treatment plants (STP) in Malaysia that reclaim the energy through the usage of water turbines. This study is conducted to evaluate the feasibility of a micro-hydropower (MHP) system at the continuous flow of effluent discharge point of domestic STP that comprises of a low head with high flow fluctuations. This work comprises of evaluation of the potential power output of MHP generator which attached to different type of STP. The work starts with selection of a five STP which have maximum current population equivalent (PE) over design PE loading ratio. Next, the effluent discharge flow rate & outfall head are collected and recorded. Finally the potential output power for all selected STPs is calculated. The highest continuous effluent discharge flow rate contributing in high potential power and will be identified as the feasible STP for the MHP system installation.

scholarly journals IMPROVEMENT OF FORECASTING METHOD OF RECESSION CHARACTERISTICS OF RIVER FLOW RATE INTO A DAM BY USING ESTIMATION OF STEADY STATE

2017 ◽  
Vol 73 (1) ◽  
pp. 12-21
Author(s):  
Tomonari KAWAI ◽  
Katsuhiro ICHIYANAGI ◽  
Takuo KOYASU ◽  
Kazuto YUKITA ◽  
Yasuyuki GOTO
Keyword(s):  
Steady State ◽  
Flow Rate ◽  
River Flow ◽  
Forecasting Method

Survival of fish passing downstream at a small hydropower facility

2018 ◽  
Vol 69 (12) ◽  
pp. 1870 ◽  
Author(s):  
Stephen V. Amaral ◽  
Benjamin S. Coleman ◽  
Jenna L. Rackovan ◽  
Kelly Withers ◽  
Benjamin Mater
Keyword(s):  
Mississippi River ◽  
River Flow ◽  
Survival Rates ◽  
Fish Populations ◽  
Negative Effects ◽  
Small Hydropower ◽  
The Usa ◽  
Pass Through ◽  
Hydro Project ◽  
Total Project

Hydropower dams can negatively affect upstream and downstream migratory fish populations in many ways, such as blocking access to upstream habitats and causing injuries or mortality during downstream passage. For downstream passage at projects in the USA, federal regulators and agencies responsible for oversight of hydropower facilities typically require assessment studies and mitigation to address negative effects, with a primary goal of minimising fish impingement and turbine entrainment and mortality. So as to assess the effects of downstream passage of fish populations at a unique, small hydro project on the Mississippi River, impingement and entrainment rates, Oberymeyer gate passage, spillway gate passage, turbine survival, and total downstream passage survival were estimated. It was determined that 85% of fish passing downstream at the project would be small enough to pass through the bar spacing of the trash racks and 15% would be physically excluded. When 55% of river flow enters the turbine intake channel, the total project survival rates were estimated to be 77.3% with an Obermeyer gate bypass rate of 10 and 96.6% with a gate bypass rate of 90%. Therefore, any effects on local fish populations resulting from the operation of the project are expected to be negligible and inconsequential on the basis of expected survival rates for the range and probability of river flows occurring at the project.

scholarly journals The Long-Term Effects of Land Use and Climate Changes on the Hydro-Morphology of the Reno River Catchment (Northern Italy)

Water ◽  
2019 ◽  
Vol 11 (9) ◽  
pp. 1831 ◽  
Author(s):  
Donatella Pavanelli ◽  
Claudio Cavazza ◽  
Stevo Lavrnić ◽  
Attilio Toscano
Keyword(s):  
Land Use ◽  
Suspended Sediment ◽  
Flow Rate ◽  
Sediment Yield ◽  
River Flow ◽  
Agricultural Land ◽  
Single Channel ◽  
Northern Italy ◽  
Lulc Changes ◽  
Suspended Sediment Yield

Anthropogenic activities, and in particular land use/land cover (LULC) changes, have a considerable effect on rivers’ flow rates and their morphologies. A representative example of those changes and resulting impacts on the fluvial environment is the Reno Mountain Basin (RMB), located in Northern Italy. Characterized by forest exploitation and agricultural production until World War II, today the RMB consists predominantly of meadows, forests and uncultivated land, as a result of agricultural land abandonment. This study focuses on the changes of the Reno river’s morphology since the 1950s, with an objective of analyzing the factors that caused and influenced those changes. The factors considered were LULC changes, the Reno river flow rate and suspended sediment yield, and local climate data (precipitation and temperature). It was concluded that LUCL changes caused some important modifications in the riparian corridor, riverbed size, and river flow rate. A 40–80% reduction in the river bed area was observed, vegetation developed in the riparian buffer strips, and the river channel changed from braided to a single channel. The main causes identified are reductions in the river flow rate and suspended sediment yield (−36% and −38%, respectively), while climate change did not have a significant effect.

scholarly journals Diurnal Variation of River Flow Rate and Water Quality in an Urban Area

1989 ◽  
Vol 33 ◽  
pp. 649-654
Author(s):  
Tadaharu ISHIKAWA ◽  
Tsuyoshi KINOUCHI ◽  
Kazuyoshi KAWABATA ◽  
Katsunori HIROKANE
Keyword(s):  
Water Quality ◽  
Diurnal Variation ◽  
Urban Area ◽  
Flow Rate ◽  
River Flow

scholarly journals Computational Analysis on Numerical Simulation of Internal Flow Physics for Pump as Turbine in Renewable Small Hydro Energy Generation

Complexity ◽  
2020 ◽  
Vol 2020 ◽  
pp. 1-10
Author(s):  
Du Jianguo ◽  
Daniel Adu ◽  
Emmanuel Acheaw ◽  
Shakir Hafeez ◽  
Eric Ofosu Antw
Keyword(s):  
Flow Rate ◽  
Rotational Speed ◽  
Human Life ◽  
Three Dimensional ◽  
Internal Flow ◽  
Hydroelectric Power ◽  
Small Hydropower ◽  
Speed Increase ◽  
Blade Thickness ◽  
The Impact

Energy contributes significantly in almost all aspects of human life as well as economic activities and plays a crucial role in the infrastructural development of a county to alleviate poverty. Generating energy from a renewable source such as small hydropower through the application of pump operating as a turbine mode called Pump as Turbine is one of the best alternatives to provide clean and inexpensive energy. Using Pump as Turbine helps in generating reasonably priced hydroelectric power for communities in underdeveloped counties. This study investigates the effects of internal flow behaviour and performance of Pump as Turbine under different rotational speed and flow rate. The rotational speed is an essential physical parameter as it affects the Pump as Turbine operation. A model-specific speed centrifugal pump model with head 32 (m), flow rate of 12.5 (m3/h) and the rotational speed of 2900 rpm, has been selected for the study. Numerical simulations have been conducted using the k-ω turbulence model to solve three-dimensional (3D) equations. The pump mode experimental data were used to confirm the results for better analysis. The results predicted that vortex and turbulent kinetic energy increase per rotational speed increase. Also, at the higher rotational speed, very high recirculation of flow is detected at the blade suction chamber, although the pressure side has a smooth flow. This study provides beneficial information which will serve as a reference to help improve PAT performance along with selecting PAT for a small hydropower site. Future works will consider the impact of blade thickness and cavitation in Pump as Turbine.

scholarly journals Advances in the Definition of Needs and Specifications for a Climate Service Tool Aimed at Small Hydropower Plants’ Operation and Management

Energies ◽  
2020 ◽  
Vol 13 (7) ◽  
pp. 1827 ◽  
Author(s):  
Eva Contreras ◽  
Javier Herrero ◽  
Louise Crochemore ◽  
Ilias Pechlivanidis ◽  
Christiana Photiadou ◽  
...  
Keyword(s):  
River Flow ◽  
Point Of View ◽  
Generation Process ◽  
Small Hydropower ◽  
Climate Services ◽  
Climate Forecasting ◽  
Operation Conditions ◽  
Hydropower Plants ◽  
Climate Service ◽  
Definition Of

The operation feasibility of small hydropower plants in mountainous sites is subjected to the run-of-river flow, which is also dependent on a high variability in precipitation and snow cover. Moreover, the management of this kind of system has to be performed with some particular operation conditions of the plant (e.g., turbine minimum and maximum discharge) but also some environmental flow requirements. In this context, a technological climate service is conceived in a tight connection with end users, perfectly answering the needs of the management of small hydropower systems in a pilot area, and providing a forecast of the river streamflow together with other operation data. This paper presents an overview of the service but also a set of lessons learnt related to the features, requirements, and considerations to bear in mind from the point of view of climate service developers. In addition, the outcomes give insight into how this kind of service could change the traditional management (normally based on past experience), providing a probability range of the future river flow based on future weather scenarios according to the range of future weather possibilities. This highlights the utility of the co-generation process to implement climate services for water and energy fields but also that seasonal climate forecasting could improve the business as usual of this kind of facility.

scholarly journals Contributions to the development of a methodology for determining the flow rate

2019 ◽  
Vol 112 ◽  
pp. 02008
Author(s):  
Cristian Purece ◽  
Valeriu Panaitescu ◽  
Irina Alina Chera Anghel
Keyword(s):  
Flow Rate ◽  
Operating Characteristics ◽  
Wireless Data ◽  
In Situ Tests ◽  
Small Hydropower ◽  
Actual Operating ◽  
Wireless Data Transmission ◽  
Hydropower Plants ◽  
Data Transmission System

The implementation of the requirements of the European Parliament Directive 2009/28 / EC requires efficient use of the water supply of a hydropower plants installation in order to obtain a higher amount of electricity by producing the same volume of water. In order to achieve efficient utilization of the energy of the water is necessary framing the operation of hydropower plants in the ranges of head course and the electric power so that the energy conversion is carried out in the optimum efficiency characteristic operation of the system. In order to determine as accurately the actual operating characteristics of a hydro-unit, in situ tests are required to determine the actual operating parameters of the hydro-unit. These parameters, the flow rate is the parameter that requires the most complex methodologies to determine. The paper presents a way of improvement but also a simplification of the methodology for in situ determination of the flow to small hydropower plants by using a mobile frame that has implemented a wireless data transmission system.

scholarly journals Forecasting river flow rate during low-flow periods using neural networks

1999 ◽  
Vol 35 (11) ◽  
pp. 3547-3552 ◽  
Author(s):  
Marina Campolo ◽  
Alfredo Soldati ◽  
Paolo Andreussi
Keyword(s):  
Neural Networks ◽  
Flow Rate ◽  
River Flow ◽  
Low Flow
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