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Smart controllers are an emerging technology for adjusting irrigation applications based on actual

weather and soil conditions. The concept of adjusting irrigation application to meet prevailing

climate and weather conditions is as old as irrigated agriculture. The technology to control irrigation

application automatically has been included in large-scale commercial systems for some time, but is

relatively new to the residential and small commercial sectors. Over the past five years the number

of smart controller products on the market has increased dramatically with different manufacturers

opting for different control technology solutions.

About the College:

Dr.N.G.P. Institute of Technology, is another milestone in the growth of the Kovai Medical Center

Research and Education Trust, Coimbatore. The location advantages of the institution are its close

proximity to the Coimbatore airport and the national highway. The institution is approved by the All

India Council for Technical Education (AICTE) New Delhi, Affiliated to Anna University Chennai, and

ISO 9001:2008 certified institution. The Institution is well equipped with advanced infrastructural

facilities to meet the requirements prescribed by the AICTE, New Delhi and Anna University Chennai.

The Institution aims to develop and implement a comprehensive Human Resource plan, to include

recruitment, professional development, retention and succession plans that attract qualified

faculties and staffs to ensure that they remain current in their respective roles and discipline.

About the Department:

The Electrical and Electronics Engineering Department was one of the first few disciplines that was

started at the time of the inception of the Institution of the year 2007. We strive to produce

Electrical Engineers who can participate in technical advancement, enable social upliftment of the

country and to meet growing global challenges. At present the department is equipped with the

qualified and experienced faculty members having a broad spectrum of specialization. The

department consists of eleven laboratories with state of the art facilities. The department has the

NIs Lab VIEW Centre to cater the needs of students community. The department offers an

undergraduate course BE Electrical & Electronics Engineering and a PG Programme ME PowerElectronics and Drives. The major strength of the department is the well placed alumnis.

About the Conference:

The International Conference on Green Computing, Communication and Electrical Energy

(ICGCCEE14) aims tobring researchers, scientists, engineers and scholar students together to

exchange and share their experiences, new ideas, and the research outcome of all possible aspects

of Green Computing, Communication, Conservation of Energy, Renewable energy sources and todiscuss the practical challenges encountered and the solutions. Green computing or green IT, refers

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to environmentally sustainable computing or IT. As computing becomes increasingly pervasive, the

energy consumption attributable to computing is increasing despite the clarion call to action to

reduce consumption and reverse greenhouse effect. Research continues into key areas such as

making the use of computers as energy-efficient as possible, designing algorithms and systems for

efficiency related computer technologies.

The mobile industry is seen as a potential enabler to reduce greenhouse gases. To meet the

requirement of low-carbon economy development, it is necessary to reduce the operation

expenditure or energy consumption of mobile networks, while maintaining acceptable quality of

service. The conference aims to establish a forum to bring together research professionals from

diverse fields including green mobile networks, system architectures, networking & communication

protocols, applications, tested and prototype, traffic balance and energy efficient, Co-operation

transmission system and application issues. Replacing the classical energy with alternative green

energy, such as bioenergy, solar energy and promoting the use of clean energy, and that way,

pollution emissions to the air will be reduced. Biofuel derived from plant materials is among themost rapidly growing renewable energy technologies. Photovoltaic technology makes use of the

energy in the sun, and it has little impact on the environment. Photo voltaic can be used in a wide

range of products, from small consumer items to large commercial solar electric systems. This

conference brings together the challenging technical aspects for supporting and producing

renewable energy with less or no impact on the ecosystems. We solicit both academic, research, and

industrial contributions. We welcome technical papers presenting research and experimental

results, position papers addressing the pros and cons of specific proposals, such as those being

discussed in the standard fora or in industry consortia, survey papers addressing the key problems

and solutions on any of the above topics are research papers on work in progress.

The present work shows an experimental investigation of using a combination of solar and wind

energies as hybrid system for electrical generation under the Jordanian climate conditions. The

generated electricity has been utilized for different types of applications and mainly for space heating

and cooling. The system has also integration with grid connection to have more reliable system.

Measurements included the solar radiation intensity, the ambient temperature, the wind speed and

the output power from the solar PV panels and wind turbine. The performance characteristic of the PV

panels has been obtained by varying the load value through a variable resistance. Some major

factors have been studied and practically measured; one of them is the dust effect on electrical

production efficiency for photovoltaic panels. Another factor is the inclination of the PV panels, where

varying the angle of inclination has a seasonal importance for gathering the maximum solar intensity.

Through mathematical calculation and the collected and measured data, a simple payback period has

been calculated of the hybrid system in order to study the economical aspects of installing such a

system under Jordanian climate conditions and for different usages and local tariffs including

domestic, industrial and commercial applications. It was found through this work that the generated

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electricity of hybrid system and under Jordanian climate conditions can be utilized for electrical

heating and cooling through split units and resistive heaters.

Modeling and building hybrid system of PV and wind turbine. Investigation of the electrical

generation under AmmanJordans climate. Configuration of theoretical and actual characteristics of

the hybrid system. Testing effects of dust, inclination and load on the electrical generation.

Financial analysis for various applications.

VTP strategies for enabling largescale production of cost-competitive

PHEVs are based on three complementary component- and system-level

technology pathways:

1) Reduce the cost of electrochemical energy storage by developing lithium-ion

batteries and other advanced energy

storage technologies that afford higher

energy densities without sacrificing

safety and performance.

2) Enable the use of advanced energy

storage technologies in vehicle

systems by developing low-cost

advanced power electronics and

electric motor components.

3) Develop and validate models and

simulation tools to predict the performance, fuel economy, and emissions

of advanced vehicle systems, in

conjunction with laboratory and field

testing, to benchmark and validate

the operational characteristics of

advanced electric-drive vehicles. collaborates with industry, universities, and national laboratories to

conduct

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fundamental research on next-generation energy storage and electric-drive

technologies as well as applied research

that addresses the cross-cutting barriers inhibiting the commercialization

of advanced electric-drive vehicles.

Technology development conducted in

collaboration with industry partners

including vehicle manufacturers and

component developers and suppliers

enables rapid integration of new technologies into commercial vehicles.

VTP has driven important advances in

the electric-drive technologies needed

to secure the nations energy future. In

collaboration with industry, universities,

and national laboratories, VTP continues

to develop the next-generation energy

storage technologies, power electronics devices, additional electric-drive

components, and modeling and testing

capabilities needed to enable the complete

integration of electric-drive systems.

These R&D activities are designed to

spur widespread deployment of HEVs,

PHEVs, and EVsand yield substantial

reductions in petroleum consumption and

greenhouse gas emissions.

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