| 1 |
Author(s):
Vaishali Bharambe.
Page No :
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Analysis and Comparison of Facts Devices using MATLAB: UPFC and SVC
Abstract
This paper presents careful analysis of versatile AC transmission (FACTS) i.e. UPFC and SVC. Effects of UPFC and SVC on the system voltage profiles and reactive power compensation square measure analyzed exploitation MATLAB simulation. during this work, Newton-Raphson load flow algorithmic rule is employed and steady state models of FACTS square measure used for the analysis. Voltage profile improvement and reactive power capability at each bus with mentioned FACTS devices square measure shown in results for IEEE nine, fourteen and thirty bus systems.
| 2 |
Author(s):
Vaishali Bharambe.
Page No :
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A Review: Capability of FACTS Device for Performance Improvement of Power System
Abstract
This paper present colorful causes of voltage problem stability and how this can be alleviate by integration of power electronics grounded Data technology. Data bias are using since 1970 and till date, because of rapid-fire and accurate corrective action for voltage stability improvement. This composition giving a review of developments of Data technolog and its operation for performance improvement of system. Pundits bandy graces and limitations of multitudinous Data and its integrations in different modes for enhancement of voltage profile at all motorcars. Authors find UPFC is a most protean Data tool because of its capability to control, all three parameters similar as voltage, impedance and phase angle. Authors demonstrate the different models and their capabilities of UPFC and its operation in different condition.
| 3 |
Author(s):
Gauri Kailas Pardeshi,Shraddha Kailas Porje ,Pratiksha Arvind Kulkarni..
Page No : 1-4
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IoT Based Programmable Load Shedding with TimeManagement
Abstract
In the current scenario of increasing energy demand the utilities are struggling to meet the demand with existing generation. Load shedding is what electric utilities do when there is a huge demand for electricity that exceeds the supply. This project is designed to operate an electrical load multiple numbers of times as per the program. It overcomes the difficulties of switching the load ON/OFF manually. This proposed has an inbuilt real time clock (RTC) to keep tracking the time and thus to switch ON/OFF the load accordingly. Thus, in a distribution system it needs to be precisely controlled for specific period of time. IoT based Programmable load shedding time management system is a reliable circuit that takes over the manual task of switch ON/OFF the electrical devices with respect to time. By measuring current, we can analyze energy consumption of two different sections, make the decisions using Internet of Things.
| 4 |
Author(s):
pratiksha purane.
Page No : 1-4
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IOT Based Solar Energy Monitoring System
Abstract
Renewable energy resources have became prominent solution to help the world with depleted conventional energy sources, to over through the energy crisis and reduce the emission of harmful gases to zero. Solar energy is now being used in wide applications all over the world, the popularity gained by solar energy applications gives the purpose for connecting this solar energy devices with other devices and software over the internet for exchanging the operational data of solar applications. There are many issues related to power transmission and power generation, like power failure, high tariff rates, and harmful emissions with hazardous environmental impacts. Solar energy is a reliable source with low maintenance and being an emerging technology we can improve its efficiency by IOT application. In this paper IOT is used for monitoring the solar energy systems. This paper will help to understand the need of monitoring and its advantages.. The paper involves the results of the experiment performed using by using Arduino Uno R3 as a microcontroller and sensors with Wi-Fi module. This Wi-Fi module then uploads the data on servers that is then accessed remotely, which will monitor the variation in the power flow parameters and efficiency of the system.