G R K D Satya Prasad
@giet.edu
Assco. Professor and Electrical Engineering
GIET University
RESEARCH INTERESTS
Smart Grid, Zero Energy Buildings, Renewable Energy sources
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Scopus Publications
Rakesh Sahu, Srikant Misra, Y. Bhanu Sandhya, Pratap Kumar Panigrahi, and GRKD Satya Prasad
Elsevier BV
Tapas Ch. Singh, K. Srinivas Rao, P. Srinath Rajesh, and G.R.K.D. Satya Prasad
Elsevier
B. Vikram Anand, G.R.K.D. Satya Prasad, and Bishwajit Dey
Elsevier
Bhanu Y, K.Srinivas Rao, P.Srinath Rajesh, and G R K D Satya Prasad
The Electrochemical Society
The desire to approach a nearly Zero Energy (ZE) framework is affected by existing characterizations for two primary reasons: they only affect the energy based system, and They do not create a benchmark that assure designs are optimized for lower emissions and energy usage before using sustainable energy methods to achieve energy requirements. Energy matching defines the amount of load handled by the building's generation as well as the interface with neighboring grids. The optimization method adopts selection criteria of a large number of possible combinations and employs the most cost-effective choices to produce a minimal cost curve to attain efficient energy homes with good performance levels. The purpose of this study is to investigate a building's energy matching economics with specific balance choices that are classified to create the path for least cost of nearly zero energy building.
D. Mathur, Shri Dibya and Shankar Mishra
IEEE
20 IE EE In te rn at io na l S ym po siu m o n Su st ai na bl e En er gy , S ig na l P ro ce ss in g an d Cy be r S ec ur ity (i SS SC ) | 97 8172 81 -8 88 05/ 20 /$ 31 .0 0 © 20 20 IE EE | D O I: 10 .1 10 9/ iS SS C5 09 41 .2 02 0. 93 58 85 7 International Symposium on Sustainable Energy, Signal Processing & Cyber Security (IEEE-iSSSC 2020), December 16 17, 2020, IEEE Conference Record #50941 GIET University, Gunupur, Odisha, India
B. Vikram Anand, G R K D Satya Prasad, and Sanjay K Kuanar
IEEE
The main objective of this paper is to improve the monitoring of simpler buildings using the program Matlab/Simulink and to design an HVAC control to measure fluctuations in temperature, CO2 and mechanical adjustments in the building's comfort level. In order to measure a prototype, with different physical properties of the construction of building, atmospheric conditions, advances and heating curves are provided. The prototype was carried out as a search tactic for a semidetached resident building with all the important details. The findings gained from Matlab/Simulink are then compared via the assembly of a tiny prototype embedded in IoT and the cloud. The advantage of this prototype is its efficiency and a reduced number of computing resources.
B. Vikram Anand, Sanjay K Kuanar, and G R K D Satya Prasad
IEEE
This paper seeks to implement multiple architecture criteria, including construction reform taking into account many factors such as productive energy efficiency steps, cost-effective parameters, indoor and outdoor convenience, seasonal environmental considerations and others. The data is processed on the GIET campus in Gunupur, Odisha with various tuning criteria for the building envelope. The data is obtained. Study focuses on the easiest solutions for expense, power and performance calculation. The emphasis of this analysis is on optimum expense, energy usage and performance calculation. The analyzed data include qualitative details on streamlined expense, energy efficient strategies, green energy production space and energy saving opportunities. The aim of this paper is to improve energy efficiency through Energy Plus and Open Studio, a simulation based optimization approach that combines data from building models with pure zero energy buildings.
B. Vikram Anand, Sanjay K Kuanar, and G R K D Satya Prasad
IEEE
This paper focuses on the aspect of building design which inculcates a concept oriented systematic procedure and computer-based simulation. Apparently, the main intent is to utilize the optimization tools for performing tasks without exchanging the criterions like energy efficiency, energy demand, heating and cooling demands, total electricity consumption and the impact of environmental conditions. Through this study, we have made an approach to resolve the fore-coming challenges in construction of an optimized building. The method involves the combined use of Energy Plus associated with TARP optimization tool to design the interior and exterior of the building. For an instance, the anamnesis of a low utilization building located in GIET UNIVERSITY, Gunupur has been simulated and the results are validated successfully. To evaluate the annual energy consumption of the building, the comparison between initial and final parameters are carried out with the help of Energy Plus and optimization tools. Eventually, the optimal design emanated has extricated the building parameters such as comfort zones, discomfort zones, also the thermal analysis of various criterions of the optimization helped in laying a successful path to Zero Energy Building [ZEB].
Krishnamoorthy Murugaperumal, Suresh Srinivasn, and G.R.K.D. Satya Prasad
Elsevier BV
Y Bhanu Sandhya*, , B Vikram Anand, GRKD Satya Prasad, , and
Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP
This paper focuses on various design parameters targeted to improve building considering numerous variable such as efficient energy measures, cost effective parameters, indoor & outdoor comfort, environmental problems based on seasonal variations etc. The reported data deals with various optimization parameters of the building envelope located at the GIET University campus, Gunupur, Odisha. The research focuses on optimal choices of cost, energy consumption and efficiency measures. The data analyzed provide qualitative information on optimal cost, energy efficiency solutions, renewable energy production onsite and energy saving potential. This work is intended for optimizing the energy performance of building using Energy Plus and Open studio which is a simulation-based optimization methodology which links the data related to the building optimization model targeting towards net zero energy building.
Balaram Das*, , G R K D Satya Prasad, Sai Babu, Mrs. Swarna Prabha Sadangi, , , and
Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP
Consumption of fossil fuel and its effect on the environment has become a major universal problem. It is therefore necessary to use renewable energy resources (RES) such as solar, wind, etc. to decrease dependency on conventional energy resources. Currently, solar rooftop PV hybrid energy systems are becoming popular to overcome with the disadvantages of conventional energy sources. This paper presents a simulation-based strategy with the help of HOMER software to control the optimum utilization of renewable hybrid energy system for private buildings where it helps to maximize the building’s renewable power ratio and minimizing complete net current costs and CO2 emissions so that it’s a viable solution to address to the power shortage and Greenhouse gas emissions. Finally, manual calculations measured with net-meter are being validated with HOMER software and the results are more accurate with a variation of 1%.
G R K D Satya Prasad*, , Dr. K. Vijaya Kumar Reddy, Dr. Sai Babu. Ch, , and
Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP
At present, the buildings are account for about 40% of total global energy and also 1/3rd of GHG emissions. All buildings are having the provision of onsite renewable energy power generation, but unable to tap these resources in most of the cases. If, these resources can be tapped properly and integrated to the buildings will solve the problem of global energy shortage and also less impact on GHG emissions. In this paper, an analysis has been done by using HOMER software to estimate the capacity of onsite renewable energy sources and its integration to Zero Energy Buildings. Finally, an economical solution has been given towards integration of onsite renewable energy sources with any type of building and to make them as Zero Energy buildings.
Tapas Chhual Singh, , G R K D Satya Prasad, Sai Babu, Kali Charan Rath, , , and
Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP
As hydropower is one of the commonly available renewable energy sources, so it is experiencing a development in the large part of the world. Pico hydropower is used as a distributed system based renewable energy system meant for rural or remote area load . It is, hence, of most significant to propose an effective methodology to assure the better making reimbursement of a combined Pico hydro system with solar pv system. The proposed method mainly estimates the feasible of installing Pico hydropower in a run-of river. The Methodologies to assess the feasibility and sustainability of such mechanism were depicted. The orderly designing of plant is defined by considering some optimal technological method that considers the dimension of components plus the estimation of the gross energy generation. Economical plus Technical data studies performed to examine the profitability and practicability of the system. This planned method can be examined as a study and the feasibility of developing a PHP in a run of river system is possible. The environmental impact on fixing this plant measured and possibly reduced. This results obtained are demonstrated for already existing infrastructure and analyzed that the cost can be reduced by using an optimized model. A simulation result has obtained the financial expand is more by the technique used for the combine hydro-PV hybrid system. In Addition to the environmental impact and effect an analysis has exposed that yearly more than 200 tons of carbon emission is reduced by producing clean and green liveliness by means of the environmental and ecological solution.
The local supply and supply scheme called micro grid will become a significant chance due to the latest development of small scale distributed generators such as OV on demand side. Renewable energy structure has been far reaching due to ecological demands. The essence of the structure for renewable energy is very efficient in using distributed generation within the structure of the power scheme. The low voltage DC distribution system is becoming essential as the amount of DC applications is increasing in our regular needs. Power provided through the AC distribution mechanism of low voltage requires both AC/DC converter to delivers the DC batteries. MGs would be fitted battery like energy storage devices. Since PVs and batteries primarily operates through DC, it is possible to emphasize the benefit of the DC distribution scheme over AC production. This article recommends an ideal MG layout including AC and DC distribution device choice. This article also describes qualitatively the benefit of micro grid with DC production, termed as DCMG through housing client studies assuming different kinds of home appliances.
M.V.S. Lakshmi, S. Prasad, and C. Sai Babu
Institution of Engineering and Technology
The limited reserves of fossil fuels and global environmental concerns over their use for electric power generation had augmented the attention in the exploitation of renewable energy resources. In particular, rapid advances in wind-turbine generator and photovoltaic technologies have brought opportunities for the utilization of wind and solar resources for electric power generation world-wide. Moreover, the economic aspects of these technologies are now adequately hopeful to also justify their use in small-scale stand-alone applications for residential use. If the development of a computer-based approach for evaluating the general performance of standalone hybrid wind-PV generating systems are analyzed and their results are reached to the common consumer with the economical analysis so that these systems can made more popular. In this paper a simulation approach has been suggested for designing Off-grid homes. Hourly average of wind speed/solar radiation data from the site is taken for the generating unit and the anticipated load data are used to predict the general performance of the generating system. The excess wind/solar-generated power, when available, is used to supply the power to the grid. Simulation studies were carried out using HOMER software. Simulation results will be given for performance evaluation of a standalone hybrid wind-PV generating unit for a residential house assumed to be located in a remote area which is analyzed as connected with grid and without connected to grid. Finally, the results obtained and methods are suggested to enhance the performance of the proposed model.