Design and Implementation of Energy Sustainability for Studio Flat

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This presentation discusses the design and implementation of energy sustainability for a studio flat, including possible solutions, project structure, costs, schedule, outcomes, challenges, and future work.

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The design and implementation
of energy sustainability for
studio flat

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Project scope
The report presents a design specification for a sustainable energy for a
studio flat. The design will be based on solving existing energy
problems, and also achieving a sustainable energy
Sustainability in the current century is an important practice. The
government and the general public should team up for the better
future of the coming generations
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Project basis
The project is based on existing problems stated below
Fossil fuels – this energy sources are cheap, but have more negative
impacts to the society, they are the main sources of environment
pollution, both in use and during its mining.
Hydro power – efficient source. The water used in energy production
is kept in dams. Dams have a more serious and dramatic impact to the
nature. The dams could collapse if not well managed. This energy
production is limited to some specific areas that have dams or
waterfalls.
Wind energy is expensive
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continuation
Solar energy is expensive, it should be consumed as it is produced
Biological fuels, commonly known as biofuels are more expensive, not
suitable for use in a flat.
HyMeAir is the current invention, it utilizes the hydrogen and
methane gases in the atmosphere. This energy cannot be
implemented in a flat because of its feasibility.

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Possible solutions for the problems
To solve the above problems, the following are the proposed possible
solutions to attaining sustainable energy in the studio flat.
Use of solar power and backup system
Use of wind power and with backup system
Combined solar and wind power system, with batteries as the backup
system
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Project structure
Solution three described was chosen
Combined solar and wind power system, with batteries as the backup
system
reasons for the choice
Solar provides clean and efficient energy, good design and installation
Wind turbines will be installed in the studio flats compound, this will
supplement the solar power
Solar and wind power requires no frequent maintenance and
monitoring unlike the hydropower.
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Illustration of project scope
ct
ation

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Expected project costs
Component Quantity costs
3w photovoltaic panel 4 $200
24VDC Batteries 4 $400
DC/AC Convertor 1 $100
Power regulator 1 $100
Installation costs $150
Total $1350
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Project schedule of events- Gantt chart
project design calculation
acqusition of solar panels
Roof partition and gaging
installation of solar panels
connecting the solar output supply
activity 2
wind turbines acquasition , based on specification
installation of wind turbines
electrical wiring for turbine outputs
connecting the wind and solar power supply
activity 3
installing voltage controler
installing convertor
installing the batteries
connecting power from turbine and solar to charge baateries
wiring voltage controllers for batteries
activity 4
general studio flat wiring
coonecting convertors to the room electrical system
installing general appliances and solar heating
system testing and certification
5
8
11
14
17
0
9
12
17
22
0
15
22
22
26
22
0
15
25
24
30
4
3.2
3.6
2.4
1.4
0
4
6.4
1.8
2
0
5
1.6
3
1.6
0.8
0
10
4.8
4.2
0
0
0.8
2.4
3.6
5.6
0
0
1.6
1.2
3
0
0
0.4
2
2.4
3.2
0
0
1.2
2.8
2
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Project outcomes
Efficient energy supply with zero carbon emissions – a net zero home,
this provides the basis for the projects theme : sustainability

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challenges
Skills for handling the project components, such as installing wind
turbines
Could not manage to install solar heating equipment, instead. Electric
water heater will be used.
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Future work
Using flexible solar panels, the panels which can rotate depending on
the solar intensity
Efficient home appliances to uses solar energy
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References
AIMMS. (2019). [online] Available at: https://aimms.com/english/developers/resources/examples/application-examples/
project-analysis/ [Accessed 17 Feb. 2019].
An assessment of battery systems suitable for use in photovoltaic systems. (2014). Journal of Power Sources, 5(4), p.339.
Budes, F., Ochoa, G. and Escorcia, Y. (2017). An economic evaluation of renewable and conventional electricity generation
systems in a shopping center using HOMER Pro. Contemporary Engineering Sciences, pp.1287-1295.
DESIGN & IMPLEMENTATION OF 17.25 KVA SOLAR POWER PLANT. (2017). International Journal of Advance Engineering and
Research Development, 4(02).
Edrawsoft.com. (2019). Free PERT Chart Templates for Word, PowerPoint, PDF. [online] Available at:
https://www.edrawsoft.com/pertcharttemplate.php [Accessed 17 Feb. 2019].
Elevli, B., Koc, E. and Kaya, K. (2016). Economical Evaluation of Installing Wind Turbines for Ondokuz Mayis University (OMU),
TURKEY. PONTE International Scientific Researchs Journal, 72(4).
Instructables.com. (2019). [online] Available at: https://www.instructables.com/id/Installing-a-wind-turbine-to-power-my-
home/ [Accessed 17 Feb. 2019].
Optimisation and techno-economic analysis of autonomous photovoltaic-wind hybrid energy systems in comparison to single
photovoltaic and wind systems. (2015). Fuel and Energy Abstracts, 44(3), p.162.
Syafaruddin, S., Latief, S. and Piarah, W. (2017). Design of Photovoltaic-Thermal (PV/T) for Building Integrated Photovoltaic
Systems. Journal of Clean Energy Technologies, 5(4), pp.304-309.
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