Energy Conservation through Smart Building and Smart Lighting SystemIJMREMJournal
Energy conservation is an extensive topic due to the propagation of electricity demand and challenges globally
and is regarded as one of the most significant issues affects the power system quality, global environment and
consumers. Smart building is a technology that can connect everything to networks or systems to monitor and
control them in various areas such as offices, energy-consuming devices especially in laboratories, security
devices etc. Nevertheless, people's perception about using smart technology for energy saving is still in the mind’s
eye. This means that people discuss about environmental awareness readily. Due to the availability of electricity
and its elemental role, regulating consumers’ behaviours towards power savings can be a challenge. Remarkably,
the gap in today's smart technology design in smart buildings is the compassionate of consumers’ attitudes and
the merging of this perspective into the smart technology. Implementation of PLC based controlling system is a
convenient method to save the power and energy strategy for whole building. Furthermore, prepare a lighting
scheme can results a rapid response in energy conservation. Consequently, PLC Automatic system removes the
human intervention which makes the process smart and energy reduction will gives benefits to the consumers in
terms of reducing the cost of electricity bills. Nonetheless, contemporary buildings’ energy conservation has been
significant solution to cope with the rising electricity necessity.
Energy Conservation through Smart Building and Smart Lighting SystemIJMREMJournal
Energy conservation is an extensive topic due to the propagation of electricity demand and challenges globally
and is regarded as one of the most significant issues affects the power system quality, global environment and
consumers. Smart building is a technology that can connect everything to networks or systems to monitor and
control them in various areas such as offices, energy-consuming devices especially in laboratories, security
devices etc. Nevertheless, people's perception about using smart technology for energy saving is still in the mind’s
eye. This means that people discuss about environmental awareness readily. Due to the availability of electricity
and its elemental role, regulating consumers’ behaviours towards power savings can be a challenge. Remarkably,
the gap in today's smart technology design in smart buildings is the compassionate of consumers’ attitudes and
the merging of this perspective into the smart technology. Implementation of PLC based controlling system is a
convenient method to save the power and energy strategy for whole building. Furthermore, prepare a lighting
scheme can results a rapid response in energy conservation. Consequently, PLC Automatic system removes the
human intervention which makes the process smart and energy reduction will gives benefits to the consumers in
terms of reducing the cost of electricity bills. Nonetheless, contemporary buildings’ energy conservation has been
significant solution to cope with the rising electricity necessity.
AI for Green - An advanced AI algorithm for cheaper Sustainable Energy Manage...SezFabian
To efficiently utilize energy drawn on renewable energy sources in micro-grids, this project explores the flair of machine learning in smart energy control systems, by implementing a custom advanced AI algorithm for cheaper Sustainable Energy Management In Micro-grids
Simulink Model for Cost-effective Analysis of Hybrid SystemIJMER
Utilization of non conventional sources of energy to meet the present day energy requirement has become very much essential in the era of fossil fuel crises. The present paper discusses the importance of PV-Diesel hybrid system to meet electrical requirement in remote areas. A model of a photovoltaic array with diesel battery was designed by MATLAB simulink. In this paper, the cost-effective analysis which includes the fuel consumed, the energy obtained per gallon of fuel supplied, and the total cost of fuel. Simulations done for Diesel generator system, diesel-battery system and solar PV with diesel-battery system using a one-year time period. Based on simulation results energy payback period for PV array, the simple payback time for the PV module calculated. Simulation analysis includes the comparison of system cost, efficiency, and kWh per gallon with those predicted by Hybrid Optimization Model for Electric Renewables (HOMER).
Analysis and Modeling of PID and MRAC Controllers for a Quadruple Tank System...dbpublications
Multivariable systems exhibit complex dynamics because of the interactions between input variables and output variables. In this paper an approach to design auto tuned decentralized PI controller using ideal decoupler and adaptive techniques for controlling a class of multivariable process with a transmission zero. By using decoupler, the MIMO system is transformed into two SISO systems. The controller parameters were adjusted using the Model Reference Adaptive reference Control. In recent process industries, PID and MRAC are the two widely accepted control strategies, where PID is used at regulatory level control and MRAC at supervisory level control. In this project, LabVIEW is used to simulate the PID with Decoupler and MRAC separately and analyze their performance based on steady state error tracking and overshoot.
This slide is an introductory part of the course Computer Application in Power system. it will describe the basic tasks of a computer and different computer application areas.
Modeling and real time digital simulation of microgrids for campuses Malta an...nooriasukmaningtyas
This paper presents the modeling and real-time digital simulation of two
microgrids: the malta college of arts, science and technology (MCAST) and the
german jordan university (GJU). The aim is to provide an overview of future
microgrid situation and capabilities with the benefits of integrating renewable
energy sources (RES), such as photovoltaic panels, diesel generators and
energy storage systems for projects on both campuses. The significance of this
work starts with the fact that real measurements were used from the two pilots,
obtained by measuring the real physical systems. These measures were used to
plan different solutions regarding RES and energy storage system (ESS)
topologies and sizes. Also, the demand curves for the real microgrids of
MCAST and GJU have been parameterized, which may serve as a test bed for
other studies in this area. Based on actual data collected from the two pilots, a
real-time digital simulation is performed using an RT-LAB platform. The
results obtained by this tool allow the microgrid manager to have a very
accurate vision of the facility operation, in terms of power flow and default
responses. Several scenarios are studied, extracting valuable insight for
implementing both projects in the future. Eventually, the proposed models
would be a blueprint for training and research purposes in the microgrid field.
AI for Green - An advanced AI algorithm for cheaper Sustainable Energy Manage...SezFabian
To efficiently utilize energy drawn on renewable energy sources in micro-grids, this project explores the flair of machine learning in smart energy control systems, by implementing a custom advanced AI algorithm for cheaper Sustainable Energy Management In Micro-grids
Simulink Model for Cost-effective Analysis of Hybrid SystemIJMER
Utilization of non conventional sources of energy to meet the present day energy requirement has become very much essential in the era of fossil fuel crises. The present paper discusses the importance of PV-Diesel hybrid system to meet electrical requirement in remote areas. A model of a photovoltaic array with diesel battery was designed by MATLAB simulink. In this paper, the cost-effective analysis which includes the fuel consumed, the energy obtained per gallon of fuel supplied, and the total cost of fuel. Simulations done for Diesel generator system, diesel-battery system and solar PV with diesel-battery system using a one-year time period. Based on simulation results energy payback period for PV array, the simple payback time for the PV module calculated. Simulation analysis includes the comparison of system cost, efficiency, and kWh per gallon with those predicted by Hybrid Optimization Model for Electric Renewables (HOMER).
Analysis and Modeling of PID and MRAC Controllers for a Quadruple Tank System...dbpublications
Multivariable systems exhibit complex dynamics because of the interactions between input variables and output variables. In this paper an approach to design auto tuned decentralized PI controller using ideal decoupler and adaptive techniques for controlling a class of multivariable process with a transmission zero. By using decoupler, the MIMO system is transformed into two SISO systems. The controller parameters were adjusted using the Model Reference Adaptive reference Control. In recent process industries, PID and MRAC are the two widely accepted control strategies, where PID is used at regulatory level control and MRAC at supervisory level control. In this project, LabVIEW is used to simulate the PID with Decoupler and MRAC separately and analyze their performance based on steady state error tracking and overshoot.
This slide is an introductory part of the course Computer Application in Power system. it will describe the basic tasks of a computer and different computer application areas.
Modeling and real time digital simulation of microgrids for campuses Malta an...nooriasukmaningtyas
This paper presents the modeling and real-time digital simulation of two
microgrids: the malta college of arts, science and technology (MCAST) and the
german jordan university (GJU). The aim is to provide an overview of future
microgrid situation and capabilities with the benefits of integrating renewable
energy sources (RES), such as photovoltaic panels, diesel generators and
energy storage systems for projects on both campuses. The significance of this
work starts with the fact that real measurements were used from the two pilots,
obtained by measuring the real physical systems. These measures were used to
plan different solutions regarding RES and energy storage system (ESS)
topologies and sizes. Also, the demand curves for the real microgrids of
MCAST and GJU have been parameterized, which may serve as a test bed for
other studies in this area. Based on actual data collected from the two pilots, a
real-time digital simulation is performed using an RT-LAB platform. The
results obtained by this tool allow the microgrid manager to have a very
accurate vision of the facility operation, in terms of power flow and default
responses. Several scenarios are studied, extracting valuable insight for
implementing both projects in the future. Eventually, the proposed models
would be a blueprint for training and research purposes in the microgrid field.
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1. Micro-grid and Sustainable Agricultural uses
NEW ENERGY SERVICES INTRODUCED INTO COMMUNITY > INCREASED
ENERGY ACCESS > INCREASED AGRICULTURAL PRODUCTION >
INCREASED COMMUNITY INCOME
Agricultural value chains represent a key part of the economies within rural, off-grid communities.
Micro-grid-powered agricultural loads can both increase agricultural production and allow rural
communities to capture more income from the crops they already produce. At the same time, increased
utilization can help drive down the cost of energy and facilitate a more financially viable micro-utility.
By powering agricultural loads, micro-utilities serve the needs of the community while helping to
ensure their sustainability.
OBJECTIVE : * Heuristic method : To used for the location methodology of the microgrid.
* Hybrid Micro-grid for Agriculture
* Energy Management system
- Optimize the micro-grid financial risk and demand side
cost of the system
- The optimal system design for powering agricultural
processes
* Real time simulation (Power hardware in the loop/HIL)
.
2. Cont..
ENERGY MANAGEMENT SYSTEM :
Optimization Techniques :
This techniques deals with micro-grid financial risk and demand side management that
focused on profit and fuel cost of the system or Economic load dispatch.
Mixed Integer Linear Programming (MILP):
To minimize the summation of electricity exchange cost and diesel generators generation
cost, while maintain the micro-grid under stable condition.
Linear Programming(LP) or (MOLP):
The significance of linear programming is to provide a solution to the existing real-world
problems through the evaluation of existing resources and the provision of relevant solutions
REAL TIME SIMULATION :
HIL or CIL (Controller-in-the-Loop) simulation is a real-time plant model (grid …)
interfaced to a piece of hardware under test usually with low-power signal interfaces
PHIL simulation is the integrated simulation of a complete system with one part simulated
numerically and the other part using real devices.
3. SKILLS
Software/Tools: MATLAB Simulation, Microsoft Visio, Beginner for Real
Time Simulation Tool (OPAL-RT), Beginner Python for
Machine Learning.
Operating System: Microsoft Office 2007, 2010, Basic knowledge of LINUX.
Related course work- During graduation studied subjects “Energy
conservation and Management” “Power system
operation” etc.
THANK YOU FOR THE CONSIDERATION
