CSM80002: Sustainable Home Development for Net Zero Energy
VerifiedAdded on 2023/03/17
|34
|4131
|71
Report
AI Summary
This report presents a comprehensive analysis of developing a sustainable home utilizing net zero energy principles. The study compares two home models, designated as YH and RH, to evaluate and contrast the embodied carbon energy, costs, and energy consumption. The methodology encompasses the selection of low-carbon materials, innovative construction processes, and renewable energy sources. The report delves into detailed examinations of YH and RH, covering construction materials, processes, heating/cooling systems, and appliance details. It includes estimations of carbon emissions, energy consumption, and cost-benefit analyses for both homes. Furthermore, the report uses HOMER software to design on-site renewable energy supply for RH, and explores the feasibility and challenges of implementing the RH design, and provides recommendations to achieve net-zero energy goals. The report concludes by summarizing the changes and percentage reductions in energy and carbon emissions achieved through the implementation of sustainable design strategies.
Development of Sustainable Home using Net Zero Energy
DEVELOPMENT OF SUSTAINABLE HOME USING NET ZERO ENERGY
By (Name)
Course
Professor’s name
University name
City, State
Date of submission
1 | P a g e
DEVELOPMENT OF SUSTAINABLE HOME USING NET ZERO ENERGY
By (Name)
Course
Professor’s name
University name
City, State
Date of submission
1 | P a g e
Paraphrase This Document
Need a fresh take? Get an instant paraphrase of this document with our AI Paraphraser
Development of Sustainable Home using Net Zero Energy
Abstract
High energy consumption in the construction industry has warranted efforts to try to achieve
zero carbon emissions in buildings. This report in its various sections goes through the
various technologies that can be applied to achieve zero carbon emission homes. In the
methodology, two different materials, YH and RH, are selected to compare the embodied
carbon energy and the saved costs in both houses. Homer software is used to design on-site
renewable energy supply to achieve net zero emission over the service life of RH. The
simulation results are discussed, challenges explored and recommendations made.
2 | P a g e
Abstract
High energy consumption in the construction industry has warranted efforts to try to achieve
zero carbon emissions in buildings. This report in its various sections goes through the
various technologies that can be applied to achieve zero carbon emission homes. In the
methodology, two different materials, YH and RH, are selected to compare the embodied
carbon energy and the saved costs in both houses. Homer software is used to design on-site
renewable energy supply to achieve net zero emission over the service life of RH. The
simulation results are discussed, challenges explored and recommendations made.
2 | P a g e
Development of Sustainable Home using Net Zero Energy
Table of Contents
Abstract......................................................................................................................................2
Introduction..............................................................................................................................3
2.1 Review low/zero carbon design technology......................................................................4
Selection of low carbon materials...........................................................................................4
Innovative Construction Process............................................................................................4
Management Operative energy consumption and consumption behavior..............................4
Renewable Energy..................................................................................................................4
Recycle and Reuse..................................................................................................................5
2.2 YH Details...........................................................................................................................6
Construction material used in YH..........................................................................................7
Construction Process used in YH...........................................................................................7
Details of heating/cooling, appliances and hot water for YH.................................................8
2.3 RH Details...........................................................................................................................9
Selection of construction materials.........................................................................................9
Selection of manufacturing constituents for RH that need less replacement/maintenance o. 9
Selection of construction process for RH...............................................................................9
The approach to reuse and recycle for RH...........................................................................10
The Energy management design to minimize consumption of energy during heating and
cooling..................................................................................................................................10
The energy management design to minimize the consumption for hot water, and
Appliances............................................................................................................................10
Selection for YH on-site renewable energy..........................................................................11
2.4 Estimating the annual and total carbon emission over the service life of YH and RH
..................................................................................................................................................11
Estimation of embodied carbon emission of YH and RH Construction Material................11
Estimation of carbon emission of YH and RH.....................................................................12
Estimation of carbon emission related to maintenance........................................................13
Estimation of carbon emission from wastes for our RH.......................................................14
Estimation of operating carbon emission with regard to the daily consumption of hot water,
and all appliances of YH and RH.........................................................................................15
Estimation of operating carbon emission in relation to the daily usage for heating and
cooling of YH and RH..........................................................................................................17
Summary of changes with reduction percentage in energy and carbon emissions...............18
2.5 Use HOMER to design on-site renewable energy supply.............................................19
2.6 Estimate cost and benefits off energy saving for RH in comparison with YH...........28
2.7 The feasibility and challenges of implementing RH......................................................28
References................................................................................................................................29
3 | P a g e
Table of Contents
Abstract......................................................................................................................................2
Introduction..............................................................................................................................3
2.1 Review low/zero carbon design technology......................................................................4
Selection of low carbon materials...........................................................................................4
Innovative Construction Process............................................................................................4
Management Operative energy consumption and consumption behavior..............................4
Renewable Energy..................................................................................................................4
Recycle and Reuse..................................................................................................................5
2.2 YH Details...........................................................................................................................6
Construction material used in YH..........................................................................................7
Construction Process used in YH...........................................................................................7
Details of heating/cooling, appliances and hot water for YH.................................................8
2.3 RH Details...........................................................................................................................9
Selection of construction materials.........................................................................................9
Selection of manufacturing constituents for RH that need less replacement/maintenance o. 9
Selection of construction process for RH...............................................................................9
The approach to reuse and recycle for RH...........................................................................10
The Energy management design to minimize consumption of energy during heating and
cooling..................................................................................................................................10
The energy management design to minimize the consumption for hot water, and
Appliances............................................................................................................................10
Selection for YH on-site renewable energy..........................................................................11
2.4 Estimating the annual and total carbon emission over the service life of YH and RH
..................................................................................................................................................11
Estimation of embodied carbon emission of YH and RH Construction Material................11
Estimation of carbon emission of YH and RH.....................................................................12
Estimation of carbon emission related to maintenance........................................................13
Estimation of carbon emission from wastes for our RH.......................................................14
Estimation of operating carbon emission with regard to the daily consumption of hot water,
and all appliances of YH and RH.........................................................................................15
Estimation of operating carbon emission in relation to the daily usage for heating and
cooling of YH and RH..........................................................................................................17
Summary of changes with reduction percentage in energy and carbon emissions...............18
2.5 Use HOMER to design on-site renewable energy supply.............................................19
2.6 Estimate cost and benefits off energy saving for RH in comparison with YH...........28
2.7 The feasibility and challenges of implementing RH......................................................28
References................................................................................................................................29
3 | P a g e
⊘ This is a preview!⊘
Do you want full access?
Subscribe today to unlock all pages.
Trusted by 1+ million students worldwide
Development of Sustainable Home using Net Zero Energy
Introduction
Energy consumption in the construction industry has been for a long time at a high
percentage of the total energy production on earth. Efforts towards accomplishing net zero
carbon emission buildings have taken over in recent times. Achieving a net zero carbon
emission building requires the annual net energy used by a building to be similar to the
level of renewable energy that the building does produce within its boundaries. This can be
realized by significantly decreasing utility of fossil fuels and minimizing all those
processes that produce greenhouse gases during the construction and maintenance on
buildings. Most zero carbon homes rely on the energy from the national grid, they however
need to return an almost similar amount of power. New buildings can be constructed to be
environmentally friendly and the existing ones retrofitted with technologies that are eco-
friendly, low in cost and energy efficient. This can lower carbon emissions as well as the
energy demands and mitigate overexploitation of natural resources. Greenery systems are
known to be low energy solutions that can be applied in the retrofit of existing buildings.
The other important factor to consider is the right material selection that; allow for low
carbon emission, are modern and more efficient, reduce consumption by using low energy
appliances, supplement power through addition of renewable energy sources and are
recyclable.
The aim of this report is to identify net zero energy solutions for homes by
establishing the various causes of carbon emission. This is done by comparing two
buildings that are different in terms of the selected materials, one referred to as YH and the
other RH. This aids in the calculation of the embodied carbon energy for both houses the
saved costs as a result of the use of renewable energy sources. Possible solutions in the
achievement of net zero energy homes will be recommended in the end. The challenges
encountered during the process shall also be explored.
4 | P a g e
Introduction
Energy consumption in the construction industry has been for a long time at a high
percentage of the total energy production on earth. Efforts towards accomplishing net zero
carbon emission buildings have taken over in recent times. Achieving a net zero carbon
emission building requires the annual net energy used by a building to be similar to the
level of renewable energy that the building does produce within its boundaries. This can be
realized by significantly decreasing utility of fossil fuels and minimizing all those
processes that produce greenhouse gases during the construction and maintenance on
buildings. Most zero carbon homes rely on the energy from the national grid, they however
need to return an almost similar amount of power. New buildings can be constructed to be
environmentally friendly and the existing ones retrofitted with technologies that are eco-
friendly, low in cost and energy efficient. This can lower carbon emissions as well as the
energy demands and mitigate overexploitation of natural resources. Greenery systems are
known to be low energy solutions that can be applied in the retrofit of existing buildings.
The other important factor to consider is the right material selection that; allow for low
carbon emission, are modern and more efficient, reduce consumption by using low energy
appliances, supplement power through addition of renewable energy sources and are
recyclable.
The aim of this report is to identify net zero energy solutions for homes by
establishing the various causes of carbon emission. This is done by comparing two
buildings that are different in terms of the selected materials, one referred to as YH and the
other RH. This aids in the calculation of the embodied carbon energy for both houses the
saved costs as a result of the use of renewable energy sources. Possible solutions in the
achievement of net zero energy homes will be recommended in the end. The challenges
encountered during the process shall also be explored.
4 | P a g e
Paraphrase This Document
Need a fresh take? Get an instant paraphrase of this document with our AI Paraphraser
Development of Sustainable Home using Net Zero Energy
2.1 Review low/zero carbon design technology
Selection of low carbon materials
Reducing the embodied carbon for building is a simple practical method that can be
achieved by utilizing by low carbon materials and carbon sink. Low carbon materials can be
obtained from materials that poses low embodied energy and carbon (EEC) during the
production process, assembly and transportation. On the other hand, carbon sink can be
obtained from wood products. The harvested wood materials include cladding and flooring
materials, doors, window frames, furniture, rafters and beams. However, bamboo also
receive great attention and is considered to be tougher than soft steel. The widely used
bamboo product is the treated bamboo flooring. Examples of low carbon building materials
include green concrete, low carbon brick, green tiles, rammed earth walls, fly ash blocks
etc. (Anderson & Shiers, 2009).
Innovative Construction Process
To achieve net zero energy home, various innovation construction strategies must be
implemented in the design. This means various factors need to be considered in the design
such as day lighting by increasing the number of size of the fenestrations while ensuring that
wall to window ration is high, allowing natural ventilation and cross ventilation, envelope
airtightness, radiant cooling and allowing under floor supply of air, and ensuring that the
orientation of the building is facing the direction of wind to allow proper ventilation to
maximize on the quality of pure and clean air (Balzani, 2010).
Management Operative energy consumption and consumption behavior
The consumption of energy in our homes remain crucial factor to be looked into since
buildings have very limited influence on the power consumption in the house. The electrical
consumed in the buildings remain high despite the low occupancy. In order to help minimize
5 | P a g e
2.1 Review low/zero carbon design technology
Selection of low carbon materials
Reducing the embodied carbon for building is a simple practical method that can be
achieved by utilizing by low carbon materials and carbon sink. Low carbon materials can be
obtained from materials that poses low embodied energy and carbon (EEC) during the
production process, assembly and transportation. On the other hand, carbon sink can be
obtained from wood products. The harvested wood materials include cladding and flooring
materials, doors, window frames, furniture, rafters and beams. However, bamboo also
receive great attention and is considered to be tougher than soft steel. The widely used
bamboo product is the treated bamboo flooring. Examples of low carbon building materials
include green concrete, low carbon brick, green tiles, rammed earth walls, fly ash blocks
etc. (Anderson & Shiers, 2009).
Innovative Construction Process
To achieve net zero energy home, various innovation construction strategies must be
implemented in the design. This means various factors need to be considered in the design
such as day lighting by increasing the number of size of the fenestrations while ensuring that
wall to window ration is high, allowing natural ventilation and cross ventilation, envelope
airtightness, radiant cooling and allowing under floor supply of air, and ensuring that the
orientation of the building is facing the direction of wind to allow proper ventilation to
maximize on the quality of pure and clean air (Balzani, 2010).
Management Operative energy consumption and consumption behavior
The consumption of energy in our homes remain crucial factor to be looked into since
buildings have very limited influence on the power consumption in the house. The electrical
consumed in the buildings remain high despite the low occupancy. In order to help minimize
5 | P a g e
Development of Sustainable Home using Net Zero Energy
the amount of operative energy in our redesigned building, there will be need to use energy
efficient appliances such as the LED lamps is mandatory. The HVAC system should be also
be installed with thermostat to help regulate the indoor temperatures automatically by
switching them on and off automatically when necessary. The occupants should also have a
discipline behavior towards energy consumption by using them sparingly to help achieve low
energy goal as stated in the Kyoto protocol of 1995 and backed up by the United Nation
Framework Convention on Climate Change (UNFCCC).
Renewable Energy
The sources of energy to be tapped for this kind of design to help in achieving low or net zero
energy are the natural sources of energy that can be replenished. These include solar energy
tapped from the sun using photovoltaic system and , wind energy, Renewable energy is
referred to as energy usually tapped from renewable resources, w harnessed from wind
turbines(Bergh, 2008). Another source of energy that has not been fully tapped into is the use
of biomass energy (Goswami, 2006).
Recycle and Reuse
Certain building materials can be easily recycled and reused such as stones, wood, water and
soil. Instead of depositing these wastes on the landfills which increases the emission pf
carbon, they can be recycled and reused for other purposes in the building. The water used in
the building can also be recycled and used for other purposes such as flushing the toilet,
watering plants, washing clothes and machines including other outdoor purposes. Plastic bags
can also be recycled to reduce the amount of solid waste on land (Borenstein, 2008).
6 | P a g e
the amount of operative energy in our redesigned building, there will be need to use energy
efficient appliances such as the LED lamps is mandatory. The HVAC system should be also
be installed with thermostat to help regulate the indoor temperatures automatically by
switching them on and off automatically when necessary. The occupants should also have a
discipline behavior towards energy consumption by using them sparingly to help achieve low
energy goal as stated in the Kyoto protocol of 1995 and backed up by the United Nation
Framework Convention on Climate Change (UNFCCC).
Renewable Energy
The sources of energy to be tapped for this kind of design to help in achieving low or net zero
energy are the natural sources of energy that can be replenished. These include solar energy
tapped from the sun using photovoltaic system and , wind energy, Renewable energy is
referred to as energy usually tapped from renewable resources, w harnessed from wind
turbines(Bergh, 2008). Another source of energy that has not been fully tapped into is the use
of biomass energy (Goswami, 2006).
Recycle and Reuse
Certain building materials can be easily recycled and reused such as stones, wood, water and
soil. Instead of depositing these wastes on the landfills which increases the emission pf
carbon, they can be recycled and reused for other purposes in the building. The water used in
the building can also be recycled and used for other purposes such as flushing the toilet,
watering plants, washing clothes and machines including other outdoor purposes. Plastic bags
can also be recycled to reduce the amount of solid waste on land (Borenstein, 2008).
6 | P a g e
⊘ This is a preview!⊘
Do you want full access?
Subscribe today to unlock all pages.
Trusted by 1+ million students worldwide
Development of Sustainable Home using Net Zero Energy
2.2 YH Details
Our YH is a 3 bedroom bungalow house located in Hawthorn VC in Melbourne which is
house model 7. The house plan has an area of 182.78m2. Below is the screenshot of the
house plan.
Isometric views from sketchup
7 | P a g e
2.2 YH Details
Our YH is a 3 bedroom bungalow house located in Hawthorn VC in Melbourne which is
house model 7. The house plan has an area of 182.78m2. Below is the screenshot of the
house plan.
Isometric views from sketchup
7 | P a g e
Paraphrase This Document
Need a fresh take? Get an instant paraphrase of this document with our AI Paraphraser
Development of Sustainable Home using Net Zero Energy
8 | P a g e
8 | P a g e
Construction material used in YH
The screenshot below was obtained from energy plus and it defines the materials selected
for our YH. They include brick veneer, concrete, ceramic tiles for the floor, carpet,
insulation and plaster board materials for both wall and ceiling, and door material.
Construction Process used in YH
Materials used in the construction of YH elements were made of different materials as
shown in the energy plus screenshot below. These materials were arrangement from the
outside layer and moved towards the inside layer. These layers include;
Exterior floor consisting of concrete and ceramic floor.
Exterior wall consisting of brick veneer, air gap, insulation and wall plasterboard.
Interior walls consisting of insulation sandwiched between wall plasterboard
The screenshot below was obtained from energy plus and it defines the materials selected
for our YH. They include brick veneer, concrete, ceramic tiles for the floor, carpet,
insulation and plaster board materials for both wall and ceiling, and door material.
Construction Process used in YH
Materials used in the construction of YH elements were made of different materials as
shown in the energy plus screenshot below. These materials were arrangement from the
outside layer and moved towards the inside layer. These layers include;
Exterior floor consisting of concrete and ceramic floor.
Exterior wall consisting of brick veneer, air gap, insulation and wall plasterboard.
Interior walls consisting of insulation sandwiched between wall plasterboard
⊘ This is a preview!⊘
Do you want full access?
Subscribe today to unlock all pages.
Trusted by 1+ million students worldwide
Exterior roof consisting of roof tiles
Interior ceiling consisting of insulation and ceiling plasterboard.
Exterior window which is single glazed
Exterior door made of timber
Details of heating/cooling, appliances and hot water for YH
HVAC system will have to be introduced in our YH to help in regulating the indoor
temperature in order to achieve thermal comfort with its constant heating set point set at
20 degrees Celsius while constant cooling set point at 24 degrees Celsius.. There are a
number of appliances that will be used in the house such as refrigerator, washing machine,
electric cooker, iron, computers, light, heater, microwave, television, dishwasher etc. the
hot water will be heated by either immersed heater or electric heater for use.
Interior ceiling consisting of insulation and ceiling plasterboard.
Exterior window which is single glazed
Exterior door made of timber
Details of heating/cooling, appliances and hot water for YH
HVAC system will have to be introduced in our YH to help in regulating the indoor
temperature in order to achieve thermal comfort with its constant heating set point set at
20 degrees Celsius while constant cooling set point at 24 degrees Celsius.. There are a
number of appliances that will be used in the house such as refrigerator, washing machine,
electric cooker, iron, computers, light, heater, microwave, television, dishwasher etc. the
hot water will be heated by either immersed heater or electric heater for use.
Paraphrase This Document
Need a fresh take? Get an instant paraphrase of this document with our AI Paraphraser
2.3 RH Details
YH building will be redesigned in an attempt to achieve net zero energy home with the same
layout plan, location and method used in construction.
Selection of construction materials
Materials selected for our RH are shown in the screenshot below as defined in the energy plus
software. The materials chosen are more likely to achieve our main goal of reducing carbon
emission in our home due to their low carbon content. This materials include REBricks, POP
wall plasterboard, wood carpet, Mangalore roof tile, door material, rigid polyurethane
insulation, low carbon concrete, glass wall wool insulation, mineral fibre ceiling, double
glazed window, ceramic.
Selection of manufacturing constituents for RH that need less replacement/maintenance o
To achieve less maintenance and replacement in YH, durable materials and sustainable
resources of energy were chosen to reduce carbon emission and less cost spent on energy
respectively.
Electrical appliances should be energy efficient
Water management strategies should be implemented
YH building will be redesigned in an attempt to achieve net zero energy home with the same
layout plan, location and method used in construction.
Selection of construction materials
Materials selected for our RH are shown in the screenshot below as defined in the energy plus
software. The materials chosen are more likely to achieve our main goal of reducing carbon
emission in our home due to their low carbon content. This materials include REBricks, POP
wall plasterboard, wood carpet, Mangalore roof tile, door material, rigid polyurethane
insulation, low carbon concrete, glass wall wool insulation, mineral fibre ceiling, double
glazed window, ceramic.
Selection of manufacturing constituents for RH that need less replacement/maintenance o
To achieve less maintenance and replacement in YH, durable materials and sustainable
resources of energy were chosen to reduce carbon emission and less cost spent on energy
respectively.
Electrical appliances should be energy efficient
Water management strategies should be implemented
Plumbing should be done appropriately to avoid any future leakage
Selection of construction process for RH
This category entails design and building, construction methods, selection of materials and
outcome of the construction. Choice of the right material is determined by some processes
focused on minimizing carbon emission. Different layers of materials were used to construct
the building elements in order to achieve the desire results as shown in the screenshot below
obtained from energy plus.
The approach to reuse and recycle for RH
The following materials are recyclable in RH; tiles, blocks, timber for the window frames,
glass wool recycled to form an insulation material and plasterboard recycled through grinding
and mixing with water to produce new plasterboard. Filing of the small craters resulting from
construction can done using pulverized blocks.
Selection of construction process for RH
This category entails design and building, construction methods, selection of materials and
outcome of the construction. Choice of the right material is determined by some processes
focused on minimizing carbon emission. Different layers of materials were used to construct
the building elements in order to achieve the desire results as shown in the screenshot below
obtained from energy plus.
The approach to reuse and recycle for RH
The following materials are recyclable in RH; tiles, blocks, timber for the window frames,
glass wool recycled to form an insulation material and plasterboard recycled through grinding
and mixing with water to produce new plasterboard. Filing of the small craters resulting from
construction can done using pulverized blocks.
⊘ This is a preview!⊘
Do you want full access?
Subscribe today to unlock all pages.
Trusted by 1+ million students worldwide
1 out of 34
Related Documents
Your All-in-One AI-Powered Toolkit for Academic Success.
+13062052269
info@desklib.com
Available 24*7 on WhatsApp / Email
![[object Object]](/_next/static/media/star-bottom.7253800d.svg)
Unlock your academic potential
Copyright © 2020–2025 A2Z Services. All Rights Reserved. Developed and managed by ZUCOL.