A Review Of Energy Use Model In New Zealand Homes Assignment 2022
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Running head: A REVIEW OF ENERGY USE MODEL IN NEW ZEALAND HOMES
A Review of Modelling energy use in New Zealand homes
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A Review of Modelling energy use in New Zealand homes
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Institutional Affiliation
A REVIEW OF ENERGY USE MODEL IN NEW ZEALAND HOMES2
Introduction/general background
Energy is a fundamental resource in our modern society and every day the world is faced
with challenges and debates of exploring new sources of sustainable energy. Due to its scarcity,
the users are required to use energy effectively. In most cases, the debate is normally focused
around the supply of energy vis-a-vis the capital intensive energy. The ever increase of energy
demand has largely impacted on the on both the energy supply goals and also improved the
efficiency of the end use.
New Zealand residential homes consume 13% (60PJ) of energy and 33% of electricity
with a regular increase of 2% each year. The residential sector is considered to be a major
contributor of electricity demand. This accounted to the emission of 10% of CO2. This prompted
the relevant authorities to improve the efficiency of energy use in NZ homes. For each 1% of
energy improvement, New Zealand saved approximately $NZ17 million and reduced the
emission of CO2 by 0.1%.
New dynamics in energy use emerged with an increase in consumption of energy, the
negative social, economic, and environmental effects also increases. Reducing energy demands
and Green House Gases emission has become a critical task. The fundamental aspect is to
understand the energy use, energy efficiency, and its demand can be achieved while at the same
time providing comfort and health
Common high energy users in New Zealand
The sources of energy are gradually drifting from nonrenewable sources to clean sources
of energy like hydro, wind energy and geothermal. The move is greatly as a result of the
pollution that is brought about by use of fossil fuels that has essentially lead to greenhouse effect
Introduction/general background
Energy is a fundamental resource in our modern society and every day the world is faced
with challenges and debates of exploring new sources of sustainable energy. Due to its scarcity,
the users are required to use energy effectively. In most cases, the debate is normally focused
around the supply of energy vis-a-vis the capital intensive energy. The ever increase of energy
demand has largely impacted on the on both the energy supply goals and also improved the
efficiency of the end use.
New Zealand residential homes consume 13% (60PJ) of energy and 33% of electricity
with a regular increase of 2% each year. The residential sector is considered to be a major
contributor of electricity demand. This accounted to the emission of 10% of CO2. This prompted
the relevant authorities to improve the efficiency of energy use in NZ homes. For each 1% of
energy improvement, New Zealand saved approximately $NZ17 million and reduced the
emission of CO2 by 0.1%.
New dynamics in energy use emerged with an increase in consumption of energy, the
negative social, economic, and environmental effects also increases. Reducing energy demands
and Green House Gases emission has become a critical task. The fundamental aspect is to
understand the energy use, energy efficiency, and its demand can be achieved while at the same
time providing comfort and health
Common high energy users in New Zealand
The sources of energy are gradually drifting from nonrenewable sources to clean sources
of energy like hydro, wind energy and geothermal. The move is greatly as a result of the
pollution that is brought about by use of fossil fuels that has essentially lead to greenhouse effect
A REVIEW OF ENERGY USE MODEL IN NEW ZEALAND HOMES3
and depletion of the forest cover. In New Zealand, 40% of the energy used is obtained from
renewable sources while 60% is from the fossil fuels. Additionally, studies show that energy
usage in New Zealand is high in the Industries at 38% followed by Transport sector at 36% then
Domestic at 11%, commercial and public sector at 9% and lastly Agriculture, Forest, Fish at
6.2%. According to Isaacs et al, (2010) 38% of the total energy was used for warming and
cooling spaces, 29% water heating, electrical appliances at 13%, cooling at 10%, Lights at 8%
and oven at 6%. Household usage of energy is highly dependent on the climate, lifestyle and
living standards.
International studies on home energy use.
Over the world usage of energy in homes is determined by the climate, living standards
and lifestyles. Studies show that in most household’s energy is used for heating or cooling spaces
Lu et al (2010). For instance, in winter more energy is used to heat up space while in summer the
energy is used to cool off spaces. According to Arghira, et al (2012). Household energy
consumption in western countries shows a trend toward saturation while is Asia energy
consumption is likely to rise. The rise in use of fossil fuel in Asia is greatly attributed to lack of
development and adoption of renewable sources. Also of importance to note is that in urban
areas households obtain energy from the following sources; Electric power 69%, traditional fuel
20%, natural gas at 9% and LPG at 2%.
Comparing energy use in other countries apart from New Zealand shows that prices of
residential electricity in Australia is very high in comparison with other developed jurisdictions.
When compared to the United States, the price is half that of Australia. Unlike the US and the
UK, 94% of the Austrian residence are mainly heated by one of the three sources; in floor and
gas convectors, district central heating, and built-in- electric heater. The energy demand model
and depletion of the forest cover. In New Zealand, 40% of the energy used is obtained from
renewable sources while 60% is from the fossil fuels. Additionally, studies show that energy
usage in New Zealand is high in the Industries at 38% followed by Transport sector at 36% then
Domestic at 11%, commercial and public sector at 9% and lastly Agriculture, Forest, Fish at
6.2%. According to Isaacs et al, (2010) 38% of the total energy was used for warming and
cooling spaces, 29% water heating, electrical appliances at 13%, cooling at 10%, Lights at 8%
and oven at 6%. Household usage of energy is highly dependent on the climate, lifestyle and
living standards.
International studies on home energy use.
Over the world usage of energy in homes is determined by the climate, living standards
and lifestyles. Studies show that in most household’s energy is used for heating or cooling spaces
Lu et al (2010). For instance, in winter more energy is used to heat up space while in summer the
energy is used to cool off spaces. According to Arghira, et al (2012). Household energy
consumption in western countries shows a trend toward saturation while is Asia energy
consumption is likely to rise. The rise in use of fossil fuel in Asia is greatly attributed to lack of
development and adoption of renewable sources. Also of importance to note is that in urban
areas households obtain energy from the following sources; Electric power 69%, traditional fuel
20%, natural gas at 9% and LPG at 2%.
Comparing energy use in other countries apart from New Zealand shows that prices of
residential electricity in Australia is very high in comparison with other developed jurisdictions.
When compared to the United States, the price is half that of Australia. Unlike the US and the
UK, 94% of the Austrian residence are mainly heated by one of the three sources; in floor and
gas convectors, district central heating, and built-in- electric heater. The energy demand model
A REVIEW OF ENERGY USE MODEL IN NEW ZEALAND HOMES4
used in residential buildings in the United States is the Artificial Neutral Network (ANN) and
Multiple Linear Regression (MLR) model. The models are used to predict future demands in
energy in the residential sector taking into consideration of the growth rates. The household
sector mainly consume energy for purposes of heating, lighting, cooling and the use of
appliances.
The following section a review of articles on modelling of energy use in New Zealand homes.
Costanza, E., Ramchurn, S. D., & Jennings, N. R. (2012, September). Understanding domestic
energy consumption through interactive visualization: a field study. In Proceedings of the 2012
ACM Conference on Ubiquitous Computing (pp. 216-225). ACM.
The residential sector plays a significant role in energy consumption. The total energy use
in homes depends on a combination of thermal performance, installed appliances, installed
equipment, as well as behaviors. As opined by Costanza, Ramchurn and Jennings (2012), house
consumes energy in different ways. One of the ways in which energy is used is cooking. Cooking
takes a small proportion of household energy. In the most developed countries, cooking takes
approximately 3 to 6 percent of the total energy use for housing.
Costanza, Ramchurn, and Jenning (2012) further indicate that energy in the house can
utilized for cooling, lighting, washing and drying. However, the rate of household energy use
varies in different places in the world as a result of varying technology and latitude. Apart from
outlining the uses of energy, Costanza, Ramchurn, and Jenning also elaborated on the importance
of keeping track of how much people use. According to Costanza, Ramchurn, and Jenning
(2012), keeping track of the use of energy in houses helps people to manage their energy use.
used in residential buildings in the United States is the Artificial Neutral Network (ANN) and
Multiple Linear Regression (MLR) model. The models are used to predict future demands in
energy in the residential sector taking into consideration of the growth rates. The household
sector mainly consume energy for purposes of heating, lighting, cooling and the use of
appliances.
The following section a review of articles on modelling of energy use in New Zealand homes.
Costanza, E., Ramchurn, S. D., & Jennings, N. R. (2012, September). Understanding domestic
energy consumption through interactive visualization: a field study. In Proceedings of the 2012
ACM Conference on Ubiquitous Computing (pp. 216-225). ACM.
The residential sector plays a significant role in energy consumption. The total energy use
in homes depends on a combination of thermal performance, installed appliances, installed
equipment, as well as behaviors. As opined by Costanza, Ramchurn and Jennings (2012), house
consumes energy in different ways. One of the ways in which energy is used is cooking. Cooking
takes a small proportion of household energy. In the most developed countries, cooking takes
approximately 3 to 6 percent of the total energy use for housing.
Costanza, Ramchurn, and Jenning (2012) further indicate that energy in the house can
utilized for cooling, lighting, washing and drying. However, the rate of household energy use
varies in different places in the world as a result of varying technology and latitude. Apart from
outlining the uses of energy, Costanza, Ramchurn, and Jenning also elaborated on the importance
of keeping track of how much people use. According to Costanza, Ramchurn, and Jenning
(2012), keeping track of the use of energy in houses helps people to manage their energy use.
A REVIEW OF ENERGY USE MODEL IN NEW ZEALAND HOMES5
Managing energy use helps people in enhancing energy budgeting and planning,
minimizing maintenance costs of equipment and further reducing the environmental impact that
is caused by households’ energy usage. Energy management can be significant for saving energy
in the houses. Saving energy decreases overdependence on fossil fuels which when burned emit
greenhouse damage the atmosphere of the earth causing harm to the environment. In addition to
reducing environmental harm, sustainability also reduces depletion of non-renewable sources of
energy. Sustainable energy plan ensures that people meet their energy needs without
compromising energy sources in the future. It is therefore important for people to have
sustainable plans to safeguard and secure future energy sources.
Pérez-Lombard, L., Ortiz, J., & Pout, C. (2008). A review on buildings energy consumption
information. Energy and buildings, 40(3), 394-398.
According to Pérez-Lombard, Ortiz, and Pout (2008), the average energy use in New
Zealand is approximately 7,000kWh of electricity per house. However, the quantity of energy
used depends on the place, the house and the number of times hot water is heated. It is estimated
that residential customers in New Zealand consumed almost 35 percent of the produced
electricity in 2017. The main areas where energy is consumed include refrigeration, water
heating, and space heating. In 2017, water heating accounted to approximately 27 percent, 20
percent for electronics and other electrical, 17 percent for refrigeration, 15 percent for space
heating, 13 percent for lighting while cooking accounted to about 5 percent.
In the US, heating accounts to almost 60 percent, cooling, and refrigeration 6 percent,
lighting 6 percent, washing and drying 4 percent while cooking accounts to 4 percent. In the UK,
Managing energy use helps people in enhancing energy budgeting and planning,
minimizing maintenance costs of equipment and further reducing the environmental impact that
is caused by households’ energy usage. Energy management can be significant for saving energy
in the houses. Saving energy decreases overdependence on fossil fuels which when burned emit
greenhouse damage the atmosphere of the earth causing harm to the environment. In addition to
reducing environmental harm, sustainability also reduces depletion of non-renewable sources of
energy. Sustainable energy plan ensures that people meet their energy needs without
compromising energy sources in the future. It is therefore important for people to have
sustainable plans to safeguard and secure future energy sources.
Pérez-Lombard, L., Ortiz, J., & Pout, C. (2008). A review on buildings energy consumption
information. Energy and buildings, 40(3), 394-398.
According to Pérez-Lombard, Ortiz, and Pout (2008), the average energy use in New
Zealand is approximately 7,000kWh of electricity per house. However, the quantity of energy
used depends on the place, the house and the number of times hot water is heated. It is estimated
that residential customers in New Zealand consumed almost 35 percent of the produced
electricity in 2017. The main areas where energy is consumed include refrigeration, water
heating, and space heating. In 2017, water heating accounted to approximately 27 percent, 20
percent for electronics and other electrical, 17 percent for refrigeration, 15 percent for space
heating, 13 percent for lighting while cooking accounted to about 5 percent.
In the US, heating accounts to almost 60 percent, cooling, and refrigeration 6 percent,
lighting 6 percent, washing and drying 4 percent while cooking accounts to 4 percent. In the UK,
A REVIEW OF ENERGY USE MODEL IN NEW ZEALAND HOMES6
space heating is approximately 60 percent, 23 percent for water heating, 2 percent for cooking
and lighting and appliances consumes 13 percent of the total domestic energy consumption
(Pérez-Lombard, Ortiz, Pout, 2008). In Australia, an average home uses almost 40 percent for
heating, 23 percent of energy for water heating, 14 percent for electronics and appliances, 7
percent for lighting and 5 percent for cooking. From this study, it is evident that heating
consumes a lot of energy while cooking consumes less energy in the above-mentioned countries.
The US and UK use a lot of energy for heating while New Zealand uses the least amount of
energy for heating. Therefore, heating, lighting, appliances, cooling, and refrigeration, as well as
cooking, are the main areas that consume a lot of energy in the house.
Fumo & Biswas (2015). Regression analysis for prediction of residential energy consumption.
Renewable and sustainable energy reviews, 47, 332-343.
As indicated by Fumo and Biswas (2015), there are several types of models that predict
the amount of energy used in homes. One of the energy model used is the engineering model.
This model involves developing a housing database that depicts the total national housing stock
and further estimates the usage of energy of different homes in the database utilizing the building
energy simulation program. The engineering method-based models are important because they
assess a broad dimension of energy efficiency upgrade cases.
The conditional demand analysis is another model that is utilized to predict energy usage
in homes. The model uses regression to account consumption to end uses based on the aggregate
household energy consumption. This model combines utility billing data, customer survey data,
and weather information to generate huge end-use energy consumption estimates (Fumo and
space heating is approximately 60 percent, 23 percent for water heating, 2 percent for cooking
and lighting and appliances consumes 13 percent of the total domestic energy consumption
(Pérez-Lombard, Ortiz, Pout, 2008). In Australia, an average home uses almost 40 percent for
heating, 23 percent of energy for water heating, 14 percent for electronics and appliances, 7
percent for lighting and 5 percent for cooking. From this study, it is evident that heating
consumes a lot of energy while cooking consumes less energy in the above-mentioned countries.
The US and UK use a lot of energy for heating while New Zealand uses the least amount of
energy for heating. Therefore, heating, lighting, appliances, cooling, and refrigeration, as well as
cooking, are the main areas that consume a lot of energy in the house.
Fumo & Biswas (2015). Regression analysis for prediction of residential energy consumption.
Renewable and sustainable energy reviews, 47, 332-343.
As indicated by Fumo and Biswas (2015), there are several types of models that predict
the amount of energy used in homes. One of the energy model used is the engineering model.
This model involves developing a housing database that depicts the total national housing stock
and further estimates the usage of energy of different homes in the database utilizing the building
energy simulation program. The engineering method-based models are important because they
assess a broad dimension of energy efficiency upgrade cases.
The conditional demand analysis is another model that is utilized to predict energy usage
in homes. The model uses regression to account consumption to end uses based on the aggregate
household energy consumption. This model combines utility billing data, customer survey data,
and weather information to generate huge end-use energy consumption estimates (Fumo and
A REVIEW OF ENERGY USE MODEL IN NEW ZEALAND HOMES7
Biswas, 2015). It is one of the models that is capable of precisely predict energy consumption in
homes as compared to the engineering-based model. This model combines behavioral-
thermodynamic approach to predict energy use in homes.
The neural network model is another model that forecast energy usage in homes. It
models energy consumption in homes as a neutral network. The information processing of this
model is inspired by the interrelated, parallel formation of the information processes of the brain.
Neural network model works by simulating a large number of interrelated processing units that
are similar to the abstract versions of the brain neurons.
Indeed, the residential sector is significant player in energy consumption. It is one of the
sectors where energy is used for cooking, heating, cooling, and refrigeration. Based on the
aforementioned studies, heating consumes a lot of energy in different countries while cooking
uses less energy. It is therefore important to model energy use in homes using engineering-based
models, neural network models and conditional demand analysis to predict future energy.
Ren, Z., Foliente, G., Chan, W. Y., Chen, D., Ambrose, M., & Paevere, P. (2013). A model for
predicting household end-use energy consumption and greenhouse gas emissions in Australia.
International Journal of Sustainable Building Technology and Urban Development, 4(3), 210-
228.
This article illustrates a model that is utilized to forecast how energy is utilized by
consumers and also monitor emission of greenhouse gases of households in Australia. According
to Ren et al (2013), the household sector is estimated to account approximately 11 percent of the
Biswas, 2015). It is one of the models that is capable of precisely predict energy consumption in
homes as compared to the engineering-based model. This model combines behavioral-
thermodynamic approach to predict energy use in homes.
The neural network model is another model that forecast energy usage in homes. It
models energy consumption in homes as a neutral network. The information processing of this
model is inspired by the interrelated, parallel formation of the information processes of the brain.
Neural network model works by simulating a large number of interrelated processing units that
are similar to the abstract versions of the brain neurons.
Indeed, the residential sector is significant player in energy consumption. It is one of the
sectors where energy is used for cooking, heating, cooling, and refrigeration. Based on the
aforementioned studies, heating consumes a lot of energy in different countries while cooking
uses less energy. It is therefore important to model energy use in homes using engineering-based
models, neural network models and conditional demand analysis to predict future energy.
Ren, Z., Foliente, G., Chan, W. Y., Chen, D., Ambrose, M., & Paevere, P. (2013). A model for
predicting household end-use energy consumption and greenhouse gas emissions in Australia.
International Journal of Sustainable Building Technology and Urban Development, 4(3), 210-
228.
This article illustrates a model that is utilized to forecast how energy is utilized by
consumers and also monitor emission of greenhouse gases of households in Australia. According
to Ren et al (2013), the household sector is estimated to account approximately 11 percent of the
A REVIEW OF ENERGY USE MODEL IN NEW ZEALAND HOMES8
aggregate energy usage in Australia. Since 1990 to 2005, the mean yearly rate of energy usage in
the homes has dramatically increased outpacing the industrial sector by 0.7 percent. As indicated
by Ren et al (2013), energy utilization in homes depend on installed equipment and appliances,
patterns of occupancy and behaviors as well as the envelope of building thermal performance. As
discussed in the article, the new tool for forecasting aggregate energy usage as well as
greenhouse gas production in Australian homes is developed by encompassing both the building
envelope and thermal efficiency.
According to Ren et al. (2013), the tool is also developed by integrating installed
appliances and equipment as well as occupancy profiles that have end-use energy modules used
for electrical appliance, water and space heating. Ren et al indicate that space cooling and
heating energy consumption is simulated by Accurate that has been adjusted to account for
particular air conditioning, ventilation system, heating and occupancy profile. This model predict
aggregate residential energy consumption as well as accompanying GHG emissions that
identifies significant ways of saving costs on energy as well as greenhouse gas emission decrease
in most households in Australia. It is important for people to adopt this kind of prediction to
track their actual energy consumption and utilize it efficiently.
Swan, L. G., & Ugursal, V. I. (2009). Modeling of end-use energy consumption in the residential
sector: A review of modeling techniques. Renewable and sustainable energy reviews, 13(8),
1819-1835.
In this article, Swan and Ugursal (2009) provide the latest model techniques that are
essential in modeling home energy usage. The top-down and bottom-up approach are the
aggregate energy usage in Australia. Since 1990 to 2005, the mean yearly rate of energy usage in
the homes has dramatically increased outpacing the industrial sector by 0.7 percent. As indicated
by Ren et al (2013), energy utilization in homes depend on installed equipment and appliances,
patterns of occupancy and behaviors as well as the envelope of building thermal performance. As
discussed in the article, the new tool for forecasting aggregate energy usage as well as
greenhouse gas production in Australian homes is developed by encompassing both the building
envelope and thermal efficiency.
According to Ren et al. (2013), the tool is also developed by integrating installed
appliances and equipment as well as occupancy profiles that have end-use energy modules used
for electrical appliance, water and space heating. Ren et al indicate that space cooling and
heating energy consumption is simulated by Accurate that has been adjusted to account for
particular air conditioning, ventilation system, heating and occupancy profile. This model predict
aggregate residential energy consumption as well as accompanying GHG emissions that
identifies significant ways of saving costs on energy as well as greenhouse gas emission decrease
in most households in Australia. It is important for people to adopt this kind of prediction to
track their actual energy consumption and utilize it efficiently.
Swan, L. G., & Ugursal, V. I. (2009). Modeling of end-use energy consumption in the residential
sector: A review of modeling techniques. Renewable and sustainable energy reviews, 13(8),
1819-1835.
In this article, Swan and Ugursal (2009) provide the latest model techniques that are
essential in modeling home energy usage. The top-down and bottom-up approach are the
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