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Xplore Articles related to Water Pumps

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Research on pump fault diagnosis based on pso-bp neural network algorithm

2019 IEEE 8th Joint International Information Technology and Artificial Intelligence Conference (ITAIC), 2019

In the research of pump fault diagnosis, the traditional BP neural network algorithm has the problems of slow convergence and unstable results, while the traditional PSO algorithm has the problems of parameter selection and stability. In view of the above problems, a PSO-BP neural network algorithm is proposed, and the adjustment rules of inertia weight and learning factor of PSO ...


PV Water Pumping Using Integrated Quadratic Boost Zeta Converter

2018 International Conference on Power Energy, Environment and Intelligent Control (PEEIC), 2018

In this paper efforts have been put to achieve a low-cost, and high-efficiency DC/DC converter based BLDC driven water pumping system. Major consideration is low PV output voltage having parallel-connected structure coupled to a cascaded combination of two boost stages namely Quadratic Boost Zeta and Isolated Zeta forming Integrated Quadratic Boost Converter with high static voltage gain. Utilized control algorithm ...


A Novel Adaptive Frequency Control Strategy for Micro Grid

2017 14th IEEE India Council International Conference (INDICON), 2017

Modern strategy like use of Electronic Load Controller (ELC) to improve the system frequency is an attractive solution. However such an approach leads to decrease in efficiency of the system as part of the generated power during light load condition is dumped in resistive loads. Several approaches which are developed to improve the performance of the ELCs still have a ...


Automatic Water Clarity Monitoring and Filtration System Using Light Dependent Resistor Based on Arduino Uno

2018 4th International Conference on Wireless and Telematics (ICWT), 2018

The purpose of this research is the design of the water clarity monitoring system in the aquarium can detect the level of clarity/turbidity of water at a certain level, using Arduino Uno Microcontroller as a controlling center, and LDR (Light Dependent Resistor) as a sensor. The quality of water relating to the status of clarity during the water, increasingly clear ...


The Feasibility of Photovoltaic and Grid-Hybrid Power Plant for Water Pumping Station in Tabriz-Iran

2018 International Conference on Photovoltaic Science and Technologies (PVCon), 2018

Energy supply to a regional grid for water pumping systems is sometimes difficult. But utilization of solar energy systems may meet energy requirements for such pumping systems. A pumping station covering an area of 16290 m2is studied in this research. The station is located in Tabriz city, Iran which has an annual solar insolation of 1884 kWh/m2. The energy need ...


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Educational Resources on Water Pumps

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IEEE-USA E-Books

  • Research on pump fault diagnosis based on pso-bp neural network algorithm

    In the research of pump fault diagnosis, the traditional BP neural network algorithm has the problems of slow convergence and unstable results, while the traditional PSO algorithm has the problems of parameter selection and stability. In view of the above problems, a PSO-BP neural network algorithm is proposed, and the adjustment rules of inertia weight and learning factor of PSO algorithm are designed, and the output layer weight coefficient and hidden layer weight coefficient of BP neural network algorithm are adjusted. Simulation test results show that pso-bp algorithm can effectively diagnose the fault of the pump. PSO-BP algorithm is advanced in pump fault diagnosis.

  • PV Water Pumping Using Integrated Quadratic Boost Zeta Converter

    In this paper efforts have been put to achieve a low-cost, and high-efficiency DC/DC converter based BLDC driven water pumping system. Major consideration is low PV output voltage having parallel-connected structure coupled to a cascaded combination of two boost stages namely Quadratic Boost Zeta and Isolated Zeta forming Integrated Quadratic Boost Converter with high static voltage gain. Utilized control algorithm makes the system devoid of current sensors allowing fundamental frequency switching of voltage source inverter (VSI). DC link voltage from VSI controls the speed of BLDC drive reliving from any complexity in circuit whereas BLDC drive soft-starts as INC-MPPT controls the converter. Results for this system are recorded under both steady and dynamic conditions providing sufficient outputs to verify the efficiency of contemplated system. The modeling has been done using Simulink/MATLAB.

  • A Novel Adaptive Frequency Control Strategy for Micro Grid

    Modern strategy like use of Electronic Load Controller (ELC) to improve the system frequency is an attractive solution. However such an approach leads to decrease in efficiency of the system as part of the generated power during light load condition is dumped in resistive loads. Several approaches which are developed to improve the performance of the ELCs still have a void where they achieved a solution with a compromise of reduced efficiency. In this work, we have proposed a central control strategy to control the frequency without reducing the efficiency, where ELC and pump loads are connected in parallel. The pump load and ELC are controlled by observing the rate of change of frequency. When the ratio is positive, loads will on and the frequency will be maintained. The proposed method is tested for IEEE 7 bus system using MATLAB/SIMULINK and test results show that the scheme is able to maintain the frequency without losing the extra power.

  • Automatic Water Clarity Monitoring and Filtration System Using Light Dependent Resistor Based on Arduino Uno

    The purpose of this research is the design of the water clarity monitoring system in the aquarium can detect the level of clarity/turbidity of water at a certain level, using Arduino Uno Microcontroller as a controlling center, and LDR (Light Dependent Resistor) as a sensor. The quality of water relating to the status of clarity during the water, increasingly clear water and the quality of the water is right. Design methodology created using a closed control system. The design results show that the tool designed to control the clarity of the water in the aquarium.

  • The Feasibility of Photovoltaic and Grid-Hybrid Power Plant for Water Pumping Station in Tabriz-Iran

    Energy supply to a regional grid for water pumping systems is sometimes difficult. But utilization of solar energy systems may meet energy requirements for such pumping systems. A pumping station covering an area of 16290 m2is studied in this research. The station is located in Tabriz city, Iran which has an annual solar insolation of 1884 kWh/m2. The energy need for the pumping station is planned to be provided by an 800 kW photovoltaic (PV) power plant which uses one-axis sun tracker to increase the energy generation. The simulations are carried out using both PVSYST and HOMER software. The proposed PV power plant design has a performance ratio of 83.7%, and the electrical losses and geographic location of the designed area are considered along with the hardware equipment and environmental profits. Simulation results demonstrate that the land and climatic conditions -as the main factors- are strongly suggestible for the implementation and construction of the aforementioned PV power plant that reduces system losses while around 20% emission reduction for SO2, NOX, and CO2 can be achieved.

  • IOT Based Fire Fighting Robot

    With the advancement in the field of mechanical technology, human interruption has become less and robots are being utilized for various works and for welfare of beings. Nowdays, fire mischances keep happenings frequently, cause danger to human life and property, also cause difficulties to fire fighters to save lives. In such cases, a firefighting robot is utilized to protect human lives, wealth, and surroundings from the fire mishappenings. This model is an IOT based firefighting robot that detects fire. After being informed the authorities can start visualizing the fire location and can communicate with people stuck with a help of an automatic receiver installed. Instructions can be given to the robot regarding its movement, turning on its water pump or carbon-dioxide pump depending on fire type through long distances. The fire type and carbon-monoxide level is known using the sensors installed that provide a graph to make the analysis. The analysis is also useful to further give information to safety authorities regarding amount of poisonous gases inhaled over a time period by the occupants of the affected area so they can take appropriate actions to undo the harm.

  • Power Efficient Distant Controlled Smart Irrigation System for AMAN and BORO Rice

    Irrigation is the process of applying appropriate amount of water to crop fields at needed interim. Irrigation is an exigent part of cultivation of rice. Although, the overall yield of rice paddy predominantly depends on proper irrigation, irrigation process in developing countries like Bangladesh is still backdated. This study proposes an Arduino/GSM based remotely controlled power efficient smart irrigation system for crops that need to be immersed in water during its growing period. It will ensure the proper irrigation of a field by monitoring water level of the paddy field, providing feedback to farmers and giving farmers option to control the water motor via SMS. This study is expected to improve the overall production of AMAN and BORO rice of Barishal region by automating the traditional irrigation system. Also it will provide a more sophisticated irrigation system for similar types of crops.

  • Water-level Control System for Solar Water Heating Engineering based on PLC

    Focus on the problem that the dedicated controller of Solar Water Heating Engineering system cannot meet the needs of large-scale projects in man- machine interaction, intelligent control, remote monitoring, reliability and scalability, etc. This paper presents a water-level measurement and control scheme suitable for large-scale Solar Water Heating Engineering project based on PLC, industrial touch screen and Variable-frequency Drive. Firstly, the control circuit and sensor circuit are designed, and the closed-loop drive control system is formed by a water-level sensor, PID controller with PLC and water pump controlled by Variable-frequency Drive. Secondly, the control strategy is optimized and friendly man-machine interface is maintained. Experiments and engineering applications show that the system runs stably and have obvious energy-saving effect. It can well solve the above problems and has a high automation level and good performance targets. Therefore it is worth applying widely.

  • Study of Solar and Wind Energy Using as Water Pump Drive-Land for Agricultural Irrigation

    During the dry season farmers have struggled watering their crops, because they have to lift water from wells. To irrigate farm land by using his power to lift water to agricultural lands, it is not very effective work by farmers in producing agricultural products. Many of those who can not use water pumps for farm land because away from a source of electrical energy. Solar and wind water pump technology is as an alternative energy to overcome these obstacles. This research was conducted to calculate of solar and wind resources, compare the efficiency of water pump using a battery energy source with a pump that only use a charged battery with solar and wind power. A method used in this research is to compare the flow of water is obtained by using a electric pump with battery and only using a battery energy alone. When batteries are full and then used to drive the pump, the volume of water obtained is 4590 L. At the during testing by using a water pump battery is work from 9.00 am until 23:00 pm the water discharge obtained is 10710 L. While at the time of testing without using batteries, water pumps can not exist. There are several possibilities among which are the pump power needed for early movers insufficient and unstable voltage and current are get out of solar panels and wind turbine, therefore, water pumps without using the battery can not be done.

  • Fuzzy Based Smart Farming using Wireless Sensor Network

    India is diverse country having variety in the agricultural crop for meeting the need of living being in different part of the country. Agriculture is one of the major sources of the economy for the people of India. The continuous demand for quality foods forces for innovation in food production technology as greenhouse farm. Food production mainly depends on weather condition and agriculture methods. The uncertainty nature of weather makes agriculture difficult for good crop cultivation. The scarcity of rainfall forces farmer to uses continuous other sources of water (tube-well, water pump) for crop cultivation. The crop production is based on temperature, humidity and soil moisture as a parameter for the production of the crop. The paper proposes a fuzzy based system leading to smart farming for effective growth of agriculture in India. The objective of model is used to monitor farm for efficient utilization of water. The proposed model shows the significant utilization of water in irrigation and is beneficial for the limited water area.



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