System Design and Development Report for 60L Green Building Project

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Added on 2019/11/19

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This report details the system design process for a 60L green building project. It begins with an executive summary outlining the assignment's objectives, which is to design and test a green building concept. The report then progresses to the preliminary design phase, focusing on solar energy harvesting and the building's conceptual layout. Following this, the detailed design and development phase is described, including the specific components of the building such as solar panels, high-quality insulation, a central dehumidification system, carbon monoxide alarms, rainwater collectors, and a central vacuum system. Finally, the report addresses system testing, evaluation, validation, and optimization to ensure the successful implementation of the green building concepts. The design emphasizes renewable energy and sustainable practices to minimize environmental impact and resource depletion. References support the design choices and methodologies discussed throughout the report.

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Running head: SYSTEM ENGINEERING DESIGN
System design process of a project
Name of the Student:
Student ID:
Name of the University:
Author’s note:

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1SYSTEM ENGINEERING DESIGN

2SYSTEM ENGINEERING DESIGN
Executive summary
The assignment had been made as a second part for the development of the system design and
testing for the 60L green building. The green building development was implied for forming the
effective processing of the construction activities. The following assignment had been developed
for analysis preliminary design for the 60L green building and formation of the detailed design
and development. The system test, evaluation &validation, and optimization were done for the
successful implementation of the green building concepts for 60L green building.

3SYSTEM ENGINEERING DESIGN
Table of Contents
1. Introduction..................................................................................................................................3
2. Preliminary design.......................................................................................................................3
3. Detailed design and development................................................................................................5
4. System Test, Evaluation & Validation and Optimisation............................................................8
5. Conclusion...................................................................................................................................8
References......................................................................................................................................10

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4SYSTEM ENGINEERING DESIGN
1. Introduction
The project of construction of the 60L green building would be formed for integrating the
development of the improvement of the facilities and involve the implementation of the
operations. The conceptual design of the 60L green building had been developed in the previous
assignment. The green building can be considered for forming the effective and improved
operations (Krarti 2016). The implication of the building development would comprise of
forming the improvement of the operations for sustainable development. The formation of the
green building design had been largely induced for forming the development of the specific
methods of the system integration and development.
The following assignment would help in critical evaluation of the conceptual design
made for the 60L green building design. The evaluation of the project management would be
helpful for forming the integration of the operations. The analysis of the project would form the
analysis of the system designing and development of operations.
2. Preliminary design
The preliminary design for the 60L green building includes the theory for harvesting the
development of the improved solar energy and the deployment of the non-exhaustible source of
energy (Australian Conservation Foundation 2017). The development of the solar panels had
been largely responsible for excavating the development of the effective and improved solar
energy harvesting. The deployment of the improved energy harvesting has been done for
overcoming the problems of depletion of energy resources. The preliminary design of the
building is shown below,

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Figure 1: Preliminary Design for the 60L green Building
Explanation of the design: The design is based for the use of the extensive structure of a
major building structured for developing the improved system implementation and development
of the effective and concise power generation (Marshall and Rossman 2014). The design for the
60L green building is developed on the concept of minimizing the exhaustion of resources and
collection renewable resources. The building forms the use of the effective energy resources and
hence decreases the probability of the occurrence of the issues of shortage of resources due to
excess exhaustion. The deployment of the improved services would help in evacuating the
concepts of the solar power generation. The outline is based for the utilization of the broad
structure of a noteworthy building organized for building up the enhanced framework execution
and improvement of the compelling and brief power era. The plan for the 60L green building is
created on the idea of limiting the depletion of assets and accumulation inexhaustible assets

6SYSTEM ENGINEERING DESIGN
(Sedrakyan, Jarvela and Kirschner 2016). The building shapes the utilization of the viable
vitality assets and thus diminishes the likelihood of the event of the issues of lack of assets
because of overabundance weariness. According to Lewandowski (2016), the sending of the
enhanced administrations would help in clearing the ideas of the sunlight based power era. The
examination of the plan had been conveyed for shaping the incorporated investigation of the
operations and supplementarily frames the advancement of framework coordination and sending
of the operations. The utilization of sun oriented boards would be useful for the shaping the
enhanced sunlight based beams catch process. The entangling of the sun powered beams would
be useful for considering the advancement of the expanded odds of sun oriented power era. The
preparatory plan for the 60L green building incorporates the hypothesis for reaping the
advancement of the enhanced sun based vitality and the sending of the non-expendable
wellspring of vitality. The advancement of the sun based boards had been generally in charge of
uncovering the advancement of the successful and enhanced sunlight based vitality gathering.
The organization of the enhanced vitality reaping has been improved the situation conquering the
issues of consumption of vitality assets. The analysis of the design had been deployed for
forming the integrated analysis of the operations and supplementarily forms the development of
system integration and deployment of the operations (Lei et al. 2017). The use of solar panels
would be helpful for the forming the improved solar rays capture process. The entrapping of the
solar rays would be helpful for considering the development of the increased chances of solar
power generation.
3. Detailed design and development
The detailed design description of the 60L green building includes the use of some
specific principles and components for ensuring the generation of the effective power generation

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7SYSTEM ENGINEERING DESIGN
(Lei et al. 2017). The building of 60L is shaped in tomb shape and the slant solar panels would
be helpful in integrating the oblate rays and entraps them for synthesizing the solar energy. The
design for the 60L green building is developed on the concept of minimizing the exhaustion of
resources and collection renewable resources. The building forms the use of the effective energy
resources and hence decreases the probability of the occurrence of the issues of shortage of
resources due to excess exhaustion. The advancement of the sun based boards had been generally
in charge of uncovering the advancement of the successful and enhanced sunlight based vitality
gathering. The organization of the enhanced vitality reaping has been improved the situation
conquering the issues of consumption of vitality assets (Kim, An and Choi 2017). The analysis
of the design had been deployed for forming the integrated analysis of the operations and
supplementarily forms the development of system integration and deployment of the operations.
The following table would show the detailed description of the components used for the
designing of the 60L solar building,
Component Description
Solar Panels The building of 60L is shaped in tomb shape and the slant solar panels
would be helpful in integrating the oblate rays and entraps them for
synthesizing the solar energy (Kim, An and Choi 2017). The use of solar
panels would be helpful for the forming the improved solar rays capture
process. The entrapping of the solar rays would be helpful for considering
the development of the increased chances of solar power generation. The
solar panels are installed at proper places for ensuring that the solar rays
would be captured and synthesized for generating the solar energy. There
are two alternative solar panels installed in the 60L building and they
serve the purpose of entrapping the reflected solar rays from the solar
panels. The development of the advanced solar power generation would
help in carrying out the analysis of the profound development of the
involved activities.
High Quality
Insulation Material
The high insulating materials are being used for ensuring the control of
heat from the house. The insulating material is used for ensuring that the
60L green house would be formed for developing the appropriate
solutions for the integration of the appropriate functions of the green

8SYSTEM ENGINEERING DESIGN
development. The building forms the use of the effective energy resources
and hence decreases the probability of the occurrence of the issues of
shortage of resources due to excess exhaustion. The high protecting
materials are being utilized for guaranteeing the control of warmth from
the house. The protecting material is utilized for guaranteeing that the 60L
green house would be shaped for building up the suitable answers for the
reconciliation of the proper elements of the green improvement.
Central
Dehumidification
System
The dehumidification system is installed for developing the control of the
humidity level inside of the house. The building of 60L green building is
equipped with a centralized dehumidification system for controlling the
atmospheric humidity in the place (Desouza and Flanery 2013). The
dehumidification would be helpful for analysis of the outside temperature
and developing effective humidity level in the house environment. The
dehumidification framework is introduced for building up the control of
the moistness level within the house. The working of 60L green building
is furnished with a concentrated dehumidification framework for
controlling the barometrical moistness in the place. The dehumidification
would be useful for examination of the outside temperature and creating
compelling mugginess level in the house condition.
Carbon Monoxide
Alarm
Carbon monoxide works as a sneaky and toxic gas that would result in
harming human due to its undetectable nature by normal means (Akerib et
al. 2015). The alarm would help in forming the checking of the content of
the carbon monoxide for ensuring the correct development of the
appropriate solution. The carbon monoxide works for detecting the
odourless and colourless carbon monoxide gas for ensuring the safety of
the residents. The alert would help in framing the checking of the
substance of the carbon monoxide for guaranteeing the right improvement
of the proper arrangement. The carbon monoxide works for distinguishing
the carbon monoxide gas for guaranteeing the wellbeing of the occupants.
Rain Water
Collector
The collection of the rain water would ensure that the consumption of the
water would be regulated. The water consumption is carried on for
developing the effective and smart analysis of the integration model. The
accumulation of the rain water would guarantee that the utilization of the
water would be directed. The water utilization is carried on for building
up the compelling and shrewd investigation of the reconciliation show.
Central Vacuum
System
The central vacuum system would evaluate the deployment of the
effective control of environment by cleansing the place from excess of
dust particles. The vacuum framework would assess the organization of
the powerful control of condition by purging the place from
overabundance of tidy particles.
Table 1: Detailed Description of the Components

9SYSTEM ENGINEERING DESIGN
(Source: Desouza and Flanery 2013, pp-98)
4. System Test, Evaluation & Validation and Optimisation
The system test, evaluation &validation, and optimization are done for the successful
implementation of the green building concepts for 60L green building (Carayon et al. 2014). The
benefit of doing the activities mentioned for development of 60L green building is explained.
The testing of the components would be done for the analysis of the functions in predetermined
environment. The testing is a crucial part where the development of the possible solutions of the
actions is done for keeping the accountability of the actions of the components. The use of the
testing lies for the enactment of the approved data analysis and development of the approved
methodologies. The deployment of the active control facilities would be done for developing the
effective and improved functions of the green building development (Zhou et al. 2013). The
evaluation and determination of the factors of green building would be done for forming the
control plan of operations on the green building of 60L. The entangling of the sun powered
beams would be useful for considering the advancement of the expanded odds of sun oriented
power era. The preparatory plan for the 60L green building incorporates the hypothesis for
reaping the advancement of the enhanced sun based vitality and the sending of the non-
expendable wellspring of vitality (Acciarri et al. 2016). The advancement of the sun based
boards had been generally in charge of uncovering the advancement of the successful and
enhanced sunlight based vitality gathering.
5. Conclusion
It can be concluded from the assignment that the system design and implementation
would be followed for interacting with the system designing and analysis. The conceptual design

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10SYSTEM ENGINEERING DESIGN
of the 60L green building had been developed in the previous assignment and the implication of
the building development comprised of forming the improvement of the operations for
sustainable development. The preliminary design for the 60L green building had included the
theory for harvesting the development of the improved solar energy and the deployment of the
non-exhaustible source of energy. The deployment of the improved energy harvesting had been
done for overcoming the problems of depletion of energy resources. The building formed the use
of the effective energy resources and hence decreases the probability of the occurrence of the
issues of shortage of resources due to excess exhaustion. The use of solar panels were helpful for
the forming the improved solar rays capture process. The entrapping of the solar rays was helpful
for considering the development of the increased chances of solar power generation. The table
made in the assignment had shown the detailed description of the components used for the
designing of the 60L solar building that included Solar Panels, High Quality Insulation Material,
Central Dehumidification System, Carbon Monoxide Alarm, Rain Water Collector, and Central
Vacuum System.

11SYSTEM ENGINEERING DESIGN
References
Acciarri, R., Acero, M.A., Adamowski, M., Adams, C., Adamson, P., Adhikari, S., Ahmad, Z.,
Albright, C.H., Alion, T., Amador, E. and Anderson, J., 2016. Long-baseline neutrino facility
(LBNF) and deep underground neutrino experiment (DUNE) conceptual design report, volume 4
the DUNE detectors at LBNF. arXiv preprint arXiv:1601.02984.
Akerib, D.S., Akerlof, C.W., Akimov, D.Y., Alsum, S.K., Araújo, H.M., Bai, X., Bailey, A.J.,
Balajthy, J., Balashov, S., Barry, M.J. and Bauer, P., 2015. LUX-ZEPLIN (LZ) conceptual
design report. arXiv preprint arXiv:1509.02910.
Australian Conservation Foundation (2017). 60L Green Building. [online] Available at:
https://www.acf.org.au/60l_green_building [Accessed 17 Aug. 2017].
Carayon, P., Wetterneck, T.B., Rivera-Rodriguez, A.J., Hundt, A.S., Hoonakker, P., Holden, R.
and Gurses, A.P., 2014. Human factors systems approach to healthcare quality and patient
safety. Applied ergonomics, 45(1), pp.14-25.
Desouza, K.C. and Flanery, T.H., 2013. Designing, planning, and managing resilient cities: A
conceptual framework. Cities, 35, pp.89-99.
Kim, N.H., An, D. and Choi, J.H., 2017. Introduction. In Prognostics and Health Management of
Engineering Systems (pp. 1-24). Springer International Publishing.
Krarti, M., 2016. Energy audit of building systems: an engineering approach. CRC press.

12SYSTEM ENGINEERING DESIGN
Lei, B., van der Heijden, F., Xu, G., Feng, M., Zou, Y., de Ridder, D. and Tax, D.M.,
2017. Classification, parameter estimation and state estimation: an engineering approach using
MATLAB. John Wiley & Sons.
Lewandowski, M., 2016. Designing the business models for circular economy—Towards the
conceptual framework. Sustainability, 8(1), p.43.
Marshall, C. and Rossman, G.B., 2014. Designing qualitative research. Sage publications.
Pahl, G. and Beitz, W., 2013. Engineering design: a systematic approach. Springer Science &
Business Media.
Sedrakyan, G., Järvelä, S. and Kirschner, P., 2016. Conceptual framework for feedback
automation and personalization for designing learning analytics dashboards.
Skara, G., Pinter, B., Geerlings, P. and De Proft, F., 2015. Revealing the thermodynamic driving
force for ligand-based reductions in quinoids; conceptual rules for designing redox active and
non-innocent ligands. Chemical Science, 6(7), pp.4109-4117.
Sosnin, P., 2013. Pseudo-Code Simulation of Designer Activity in Conceptual Designing of
Software Intensive Systems. In ECMS (pp. 85-92).
Swan, M., 2014. Designing tasks and lessons that develop conceptual understanding, strategic
competence and critical awareness. Tarefas matemáticas: Livro de Atas do Encontro de
Investigação em Educação Matemática, pp.9-28.
Tkachenko, A.Y., Kuz’michev, V.S., Krupenich, I.N. and Rybakov, V.N., 2016. Gas Turbine
Engine Optimization at Conceptual Designing. In MATEC Web of Conferences (Vol. 77, p.
01027). EDP Sciences.

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Zhou, Z., Liu, P., Li, Z. and Ni, W., 2013. An engineering approach to the optimal design of
distributed energy systems in China. Applied Thermal Engineering, 53(2), pp.387-396.