Ground Source Heat Pump Systems Analysis
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AI Summary
This assignment requires a comprehensive analysis of various research papers focusing on ground source heat pump systems. The papers explore aspects like thermal performance, applications in buildings and food drying, integration with district heating and solar energy, operational optimization, and consumer adoption barriers. The goal is to understand the current state-of-the-art in GSHP technology and its potential for sustainable energy solutions.
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Running head: GROUND SOURCE HEAT PUMPS ASSIGNMENT
Ground Source Heat Pumps Assignment
Name of Student:
Name of University:
Author’s Note:
Ground Source Heat Pumps Assignment
Name of Student:
Name of University:
Author’s Note:
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1GROUND SOURCE HEAT PUMPS ASSIGNMENT
Executive summary:
The aim of this report is to discuss about the ground source heat pumps the types and the nature
of the installation and the utilities. The market segmentation and micro analysis of the pumps are
also explained clearly. The SWOT and PESTEL analysis of the pumps their installation and the
suitable factors are also discussed. The possible barriers to the installation and the way in which
they can be overcome are also discussed.
Executive summary:
The aim of this report is to discuss about the ground source heat pumps the types and the nature
of the installation and the utilities. The market segmentation and micro analysis of the pumps are
also explained clearly. The SWOT and PESTEL analysis of the pumps their installation and the
suitable factors are also discussed. The possible barriers to the installation and the way in which
they can be overcome are also discussed.
2GROUND SOURCE HEAT PUMPS ASSIGNMENT
Table of Contents
Introduction:....................................................................................................................................3
Background of GSHP:.....................................................................................................................3
Closed loop system:.....................................................................................................................4
Open loop system:.......................................................................................................................5
Working principle:...........................................................................................................................5
Efficiency of the Ground Source Heat Pumps:................................................................................5
Market target for domestic household:............................................................................................6
Market Segmentation:......................................................................................................................6
SWOT Analysis of Ground source heat pumps:..............................................................................6
Strengths:.....................................................................................................................................6
Weaknesses:.................................................................................................................................7
Opportunities:..............................................................................................................................7
Threats:........................................................................................................................................7
Pestle Analysis:................................................................................................................................7
Political factors:...........................................................................................................................8
Social factors:..............................................................................................................................8
Economic factors:........................................................................................................................8
Table of Contents
Introduction:....................................................................................................................................3
Background of GSHP:.....................................................................................................................3
Closed loop system:.....................................................................................................................4
Open loop system:.......................................................................................................................5
Working principle:...........................................................................................................................5
Efficiency of the Ground Source Heat Pumps:................................................................................5
Market target for domestic household:............................................................................................6
Market Segmentation:......................................................................................................................6
SWOT Analysis of Ground source heat pumps:..............................................................................6
Strengths:.....................................................................................................................................6
Weaknesses:.................................................................................................................................7
Opportunities:..............................................................................................................................7
Threats:........................................................................................................................................7
Pestle Analysis:................................................................................................................................7
Political factors:...........................................................................................................................8
Social factors:..............................................................................................................................8
Economic factors:........................................................................................................................8
3GROUND SOURCE HEAT PUMPS ASSIGNMENT
Technological factors:.................................................................................................................8
Barriers to overcome:......................................................................................................................9
Limited awareness:......................................................................................................................9
High initial cost:........................................................................................................................10
Poor perception and quality assurance:.....................................................................................10
Low cost of energy:...................................................................................................................10
Conclusion:....................................................................................................................................11
References:....................................................................................................................................12
Technological factors:.................................................................................................................8
Barriers to overcome:......................................................................................................................9
Limited awareness:......................................................................................................................9
High initial cost:........................................................................................................................10
Poor perception and quality assurance:.....................................................................................10
Low cost of energy:...................................................................................................................10
Conclusion:....................................................................................................................................11
References:....................................................................................................................................12
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4GROUND SOURCE HEAT PUMPS ASSIGNMENT
Introduction:
A GSHP is an electrically powered system which utilizes the relative constant ground or
groundwater temperatures in order to provide heating, cooling or hot water as and when
necessary. Instead of the burning of fossil fuels in order to create the heat like the usual systems
that is the conventional method systems. In other words, the GSHPs move the heat that already is
present. In a heating mode the GSHP helps in transfer of the heat from the building and its
deposition into the ground water.
The geothermal system of heat exchange gives the ground source energy for the suitable
systems of heating and cooling. The use of the “ground source systems” for the heating or the
cooling procedures have increased in an exponential manner especially in the European country.
The basic idea of the system has been existent for a long time where the heat energy which is
stored in the ground is utilized and this energy is accessed by utilization of the heat exchanges
which are buried in the ground. In ideal situations these systems can offer a bulk of the desired
heating and cooling and significant reduction of the costs and carbon footprints.
Background of GSHP:
A “ground source heat pump” system comprises of three simple constituents which are a
ground loop, the heat distribution system and the heat pump itself. The horizontal trench or
borehole is where the ground loops are buried. The trenches which are horizontal are dug at a
level of 1.5-2 metres below the ground and despite they cover more land surface than a borehole
they are usually less in price for smaller systems (Sarbu & Sebarchievici, 2014).
Introduction:
A GSHP is an electrically powered system which utilizes the relative constant ground or
groundwater temperatures in order to provide heating, cooling or hot water as and when
necessary. Instead of the burning of fossil fuels in order to create the heat like the usual systems
that is the conventional method systems. In other words, the GSHPs move the heat that already is
present. In a heating mode the GSHP helps in transfer of the heat from the building and its
deposition into the ground water.
The geothermal system of heat exchange gives the ground source energy for the suitable
systems of heating and cooling. The use of the “ground source systems” for the heating or the
cooling procedures have increased in an exponential manner especially in the European country.
The basic idea of the system has been existent for a long time where the heat energy which is
stored in the ground is utilized and this energy is accessed by utilization of the heat exchanges
which are buried in the ground. In ideal situations these systems can offer a bulk of the desired
heating and cooling and significant reduction of the costs and carbon footprints.
Background of GSHP:
A “ground source heat pump” system comprises of three simple constituents which are a
ground loop, the heat distribution system and the heat pump itself. The horizontal trench or
borehole is where the ground loops are buried. The trenches which are horizontal are dug at a
level of 1.5-2 metres below the ground and despite they cover more land surface than a borehole
they are usually less in price for smaller systems (Sarbu & Sebarchievici, 2014).
5GROUND SOURCE HEAT PUMPS ASSIGNMENT
Drilling is done at a level of 15-150 metres and they benefit from the higher ground
temperatures than the trenches. There are several nature of pipes that are utilized in a trench in
place of a straight one that increases the heat that is absorbed form the ground and thereby
improve the performance. For heat absorption from the ground, the water and anti free mixture
is put within the pipe. Heat is exchanged and the absorbed heat is then transferred to the heat
pump by a heat exchanger. An anti freeze mixture or water is put within the pipe for the
circulation where heat is absorbed from the ground The third most important element of a
“ground source heat pump”, is the heat distribution system. It can be either radiators at low
temperature or under the heating of floor which are usually preferred. In case it is required that
the heat pump generates elevated temperatures for a radiator circuit which is conventional then
the overall efficiency is bound to reduce (Montagud, Corberán & Ruiz-Calvo,F. (2013).
Once ground pump installation has been done then there are no external fans or
equipments are visible. It can therefore be said that the system is quiet in operation, does not
issue any emissions and is very safe and does not require much of maintenance (Yang, Sun &
Chen, 2015).
The ground source heat pump is an eligible renewable heat initiative (RHI) and there are
two major types of “ground source heat pump” which are open loop system and the closed loop
system.
Closed loop system:
The “closed loop systems” actually pump an anti free solution that are pumped through
the pipes kept buried in the ground. The loop s are either horizontally installed in trenches or
vertically into boreholes. The total strength depends on the heat pumps size as also the thermal
Drilling is done at a level of 15-150 metres and they benefit from the higher ground
temperatures than the trenches. There are several nature of pipes that are utilized in a trench in
place of a straight one that increases the heat that is absorbed form the ground and thereby
improve the performance. For heat absorption from the ground, the water and anti free mixture
is put within the pipe. Heat is exchanged and the absorbed heat is then transferred to the heat
pump by a heat exchanger. An anti freeze mixture or water is put within the pipe for the
circulation where heat is absorbed from the ground The third most important element of a
“ground source heat pump”, is the heat distribution system. It can be either radiators at low
temperature or under the heating of floor which are usually preferred. In case it is required that
the heat pump generates elevated temperatures for a radiator circuit which is conventional then
the overall efficiency is bound to reduce (Montagud, Corberán & Ruiz-Calvo,F. (2013).
Once ground pump installation has been done then there are no external fans or
equipments are visible. It can therefore be said that the system is quiet in operation, does not
issue any emissions and is very safe and does not require much of maintenance (Yang, Sun &
Chen, 2015).
The ground source heat pump is an eligible renewable heat initiative (RHI) and there are
two major types of “ground source heat pump” which are open loop system and the closed loop
system.
Closed loop system:
The “closed loop systems” actually pump an anti free solution that are pumped through
the pipes kept buried in the ground. The loop s are either horizontally installed in trenches or
vertically into boreholes. The total strength depends on the heat pumps size as also the thermal
6GROUND SOURCE HEAT PUMPS ASSIGNMENT
conductivity where they are buried. In case the closed loop systems are poorly designed and
installed they can result in ground freezing and efficiency as also the life of the heating system.
However they can be installed at any place possible.
Open loop system:
These are the most resourceful “ground source heat pump option”. Heat is extracted
from the aquifer with the help of boreholes that passed through heat pumps. This system is
applicable in high ground water availability areas. It is possible to filter the water for domestic
consumption before returning it to the ground by means of a harvesting link.
Working principle:
The Sun’s radiation heats the earth. The heat is then stored and ultimately maintains just
two metres or so down where at around 9-11 degrees Celsius. Due to the ground source heat
pumps the completely replenished are heat stores. The hot water provisions are needed for the
buildings. Technology which is utilized is the same as that which is utilised in the refrigerators.
In the similar way that the fridge does the ground source heat pump extracts the earth’s heat and
transfers it to the building (Snape, Boait & Rylatt 2015).
Efficiency of the Ground Source Heat Pumps:
The GSHP’s and 3-4 units are trapped and distributed by each of the electricity units.
This implies that there is an efficiency of 300-400% in electricity utility. At this particular level
of efficiency there will be lesser amount of carbon dioxide emissions in comparison for a heating
system of a gas boiler. There might also be a provision for the required amount of electricity by
conductivity where they are buried. In case the closed loop systems are poorly designed and
installed they can result in ground freezing and efficiency as also the life of the heating system.
However they can be installed at any place possible.
Open loop system:
These are the most resourceful “ground source heat pump option”. Heat is extracted
from the aquifer with the help of boreholes that passed through heat pumps. This system is
applicable in high ground water availability areas. It is possible to filter the water for domestic
consumption before returning it to the ground by means of a harvesting link.
Working principle:
The Sun’s radiation heats the earth. The heat is then stored and ultimately maintains just
two metres or so down where at around 9-11 degrees Celsius. Due to the ground source heat
pumps the completely replenished are heat stores. The hot water provisions are needed for the
buildings. Technology which is utilized is the same as that which is utilised in the refrigerators.
In the similar way that the fridge does the ground source heat pump extracts the earth’s heat and
transfers it to the building (Snape, Boait & Rylatt 2015).
Efficiency of the Ground Source Heat Pumps:
The GSHP’s and 3-4 units are trapped and distributed by each of the electricity units.
This implies that there is an efficiency of 300-400% in electricity utility. At this particular level
of efficiency there will be lesser amount of carbon dioxide emissions in comparison for a heating
system of a gas boiler. There might also be a provision for the required amount of electricity by
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7GROUND SOURCE HEAT PUMPS ASSIGNMENT
renewable source of energy thus doing way with fossil fuel use of any sort and reduction of the
overall carbon emissions.
Market target for domestic household:
The target market for the domestic homes has to target properties which give more and
more appeal and demand to the pumps. There have been significant number of data which have
been collected from the detached bungalows, end terraced houses, detached houses, flats,
maisonettes, mid terraced houses, semi detached bungalows, semi detached houses among
others. The number of pumps which are needed and the values of the pumps against all of the
types of the buildings are also mentioned accordingly (Bayer et al., 2012).
Market Segmentation:
The micro market segmentation related to the study reveals that South West parts of
England, the London and South East parts of UK and also the Yorkshire and Humber Regions
have a high level of awareness. In the Yorkshire and Humber regions are dominated by the
public sector. There is significant amount of exposure as well in the eastern parts of England. In
case of the north west and north eastern parts of England there is the dominance of the public
sector system (Erbay & Hepbasli, 2014).
SWOT Analysis of Ground source heat pumps:
Strengths:
Most efficient among all the three different types of heat pumps
Good amount of energy efficiency
Runs on the electrical grid and does not require other supply of resources
renewable source of energy thus doing way with fossil fuel use of any sort and reduction of the
overall carbon emissions.
Market target for domestic household:
The target market for the domestic homes has to target properties which give more and
more appeal and demand to the pumps. There have been significant number of data which have
been collected from the detached bungalows, end terraced houses, detached houses, flats,
maisonettes, mid terraced houses, semi detached bungalows, semi detached houses among
others. The number of pumps which are needed and the values of the pumps against all of the
types of the buildings are also mentioned accordingly (Bayer et al., 2012).
Market Segmentation:
The micro market segmentation related to the study reveals that South West parts of
England, the London and South East parts of UK and also the Yorkshire and Humber Regions
have a high level of awareness. In the Yorkshire and Humber regions are dominated by the
public sector. There is significant amount of exposure as well in the eastern parts of England. In
case of the north west and north eastern parts of England there is the dominance of the public
sector system (Erbay & Hepbasli, 2014).
SWOT Analysis of Ground source heat pumps:
Strengths:
Most efficient among all the three different types of heat pumps
Good amount of energy efficiency
Runs on the electrical grid and does not require other supply of resources
8GROUND SOURCE HEAT PUMPS ASSIGNMENT
Uses environmental energy and does not use other energy types
Does not produce carbon emission
Water supply temperatures are relatively attainable for heating and cooling
Weaknesses:
High costs of installation
Taking up facility ground space
Does not work in the sections of building with the existing radiators
Requires supplement to bring DHW to sixty degrees Celsius
Competitive with other renewable energy sources
Slow pace of the legislations supporting renewable energy (Ally et al., 2015)
Opportunities:
There is spare ground on the site to be used
It can be utilized with air conditioning system
Government investments in the renewable energy projects
The current hike in the prices of energy (Luo et al., 2015)
Threats:
The fear of reduction of the LCBP grant by the government due to austerity measure
Competition with the rival suppliers
More developed technologies available
Pestle Analysis:
The political, economic, social and technological factors are clearly explained with
regard to the ground source heat pumps.
Uses environmental energy and does not use other energy types
Does not produce carbon emission
Water supply temperatures are relatively attainable for heating and cooling
Weaknesses:
High costs of installation
Taking up facility ground space
Does not work in the sections of building with the existing radiators
Requires supplement to bring DHW to sixty degrees Celsius
Competitive with other renewable energy sources
Slow pace of the legislations supporting renewable energy (Ally et al., 2015)
Opportunities:
There is spare ground on the site to be used
It can be utilized with air conditioning system
Government investments in the renewable energy projects
The current hike in the prices of energy (Luo et al., 2015)
Threats:
The fear of reduction of the LCBP grant by the government due to austerity measure
Competition with the rival suppliers
More developed technologies available
Pestle Analysis:
The political, economic, social and technological factors are clearly explained with
regard to the ground source heat pumps.
9GROUND SOURCE HEAT PUMPS ASSIGNMENT
Political factors:
The stability with concern to the government
Rule of the majority
Taxation policy
Regulation and deregulation trends
The corruption levels prevalent in the society
The ease with which business can be performed
The ease with which a business can be initiated
Social factors:
The rapid growth of the population leading to the needs of the pumps
Diversity of ethnicity and gender
Education and health
Welfare of the society
Economic diversity
The disparity in digital space
Economic factors:
Business cycle categories
Costs of labour
Variations in the economic environment
Technological factors:
emerging technologies and their effects
technological transfer
Political factors:
The stability with concern to the government
Rule of the majority
Taxation policy
Regulation and deregulation trends
The corruption levels prevalent in the society
The ease with which business can be performed
The ease with which a business can be initiated
Social factors:
The rapid growth of the population leading to the needs of the pumps
Diversity of ethnicity and gender
Education and health
Welfare of the society
Economic diversity
The disparity in digital space
Economic factors:
Business cycle categories
Costs of labour
Variations in the economic environment
Technological factors:
emerging technologies and their effects
technological transfer
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10GROUND SOURCE HEAT PUMPS ASSIGNMENT
Technological dissemination
Technological interruption
In this connection it can be said that all the factors need to be kept in mind including the
energy saving for the commitment to cut the emission of carbon. The sustainability of the
environment need to be maintained. The affordable heat for the long life has to be looked
into and the technological suitability also needs to be understood. Appropriateness for
lower environment is impactful with regard to the projects (Chong et al., 2013).
Barriers to overcome:
The market for the GSHP’s is only well established in the European Countries. Other
countries like UK, Ireland, Finland, Switzerland among others explain a great amount of
potential but are unable to gain a self-sustaining market. Ground source heat pumps are
responsible for presenting a technology which has proven to be extremely effectual in the green
house gas emission reduction. The following barriers need to be overcome in order to reach a
self sustaining market (Banks, 2012).
Limited awareness:
The inadequate amount of awareness among the decision makers and the public, the
authorities and the political bigwigs who deal with the matters relating to energy is due to the
absence of professionalism at all situations. It is to be understood that renewable energy sources
like that of wind, solar, biomass and photo voltaic are suitable change options due to the
effective information campaigns and support of the authorities. Therefore there is the need for
long term strategic communication.
Technological dissemination
Technological interruption
In this connection it can be said that all the factors need to be kept in mind including the
energy saving for the commitment to cut the emission of carbon. The sustainability of the
environment need to be maintained. The affordable heat for the long life has to be looked
into and the technological suitability also needs to be understood. Appropriateness for
lower environment is impactful with regard to the projects (Chong et al., 2013).
Barriers to overcome:
The market for the GSHP’s is only well established in the European Countries. Other
countries like UK, Ireland, Finland, Switzerland among others explain a great amount of
potential but are unable to gain a self-sustaining market. Ground source heat pumps are
responsible for presenting a technology which has proven to be extremely effectual in the green
house gas emission reduction. The following barriers need to be overcome in order to reach a
self sustaining market (Banks, 2012).
Limited awareness:
The inadequate amount of awareness among the decision makers and the public, the
authorities and the political bigwigs who deal with the matters relating to energy is due to the
absence of professionalism at all situations. It is to be understood that renewable energy sources
like that of wind, solar, biomass and photo voltaic are suitable change options due to the
effective information campaigns and support of the authorities. Therefore there is the need for
long term strategic communication.
11GROUND SOURCE HEAT PUMPS ASSIGNMENT
High initial cost:
The high original costs in several cases are an obstruction to the system despite the
overall lifecycle cost being satisfactory. The people in charge of the promotion and marketing of
the “ground source heat pump” systems might be encountering an educational or pedagogical
challenge. In addition to the marketing concerns the comfort and environmental advantages of
the heat pumps need to be given proper importance. The cost barriers might be hard to overcome
without any sort of economic support or sharing of cist between the manufacturers and suppliers.
Poor perception and quality assurance:
It often happens that the poor perceptions have a detrimental effect on the market of the
heat pumps. This is the effect of a market which is fast growing and has vendors or installers
who do not have sufficient amount of experience. The reasonable amount of efficiency needs to
be reached at. In case a suitable amount of efficiency and quality standard are not maintained it
can lead to a bad reputation and a setback in the sales. This needs to be avoided and the
initiatives to increase the future utilization of heat pumps need to be supported.
Low cost of energy:
The prices of energy do not always show the outer costs of the several energies and are a
noteworthy barrier in certain countries of European origin. It often happens that even if a ground
source pump is economically viable and a financially competitive option, the cost difference in
the energies might become too small to understand the suitability of the system heat pump. The
barrier is becoming of lesser importance as the general public has realised the future is bound to
lead to the increased energy prices.
High initial cost:
The high original costs in several cases are an obstruction to the system despite the
overall lifecycle cost being satisfactory. The people in charge of the promotion and marketing of
the “ground source heat pump” systems might be encountering an educational or pedagogical
challenge. In addition to the marketing concerns the comfort and environmental advantages of
the heat pumps need to be given proper importance. The cost barriers might be hard to overcome
without any sort of economic support or sharing of cist between the manufacturers and suppliers.
Poor perception and quality assurance:
It often happens that the poor perceptions have a detrimental effect on the market of the
heat pumps. This is the effect of a market which is fast growing and has vendors or installers
who do not have sufficient amount of experience. The reasonable amount of efficiency needs to
be reached at. In case a suitable amount of efficiency and quality standard are not maintained it
can lead to a bad reputation and a setback in the sales. This needs to be avoided and the
initiatives to increase the future utilization of heat pumps need to be supported.
Low cost of energy:
The prices of energy do not always show the outer costs of the several energies and are a
noteworthy barrier in certain countries of European origin. It often happens that even if a ground
source pump is economically viable and a financially competitive option, the cost difference in
the energies might become too small to understand the suitability of the system heat pump. The
barrier is becoming of lesser importance as the general public has realised the future is bound to
lead to the increased energy prices.
12GROUND SOURCE HEAT PUMPS ASSIGNMENT
Conclusion:
The ground source heat pumps work best when utilized in a properly designed
installation in order to manage the heating and cooling requirements of a building over all the
seasons. A GSHP can perform this by the transfer of heat to or from the ground on where it
stands in order to achieve a properly moderated temperature in the buildings all the year round.
The heat pumps can even be cost effective with certain considerations. The GSHPs are most
likely to be successful. All the suitable conditions for the proper working of the heat pumps need
to be understood such that the implementation can be proper and correct. The cost effectiveness
and the economic and political factors should also be kept in mind. The financial analysis and
the economic breakdowns of the heat pumps are mentioned clearly. This helps in clearly
understanding the implications of the proper use of the heat pumps as and when required.
Conclusion:
The ground source heat pumps work best when utilized in a properly designed
installation in order to manage the heating and cooling requirements of a building over all the
seasons. A GSHP can perform this by the transfer of heat to or from the ground on where it
stands in order to achieve a properly moderated temperature in the buildings all the year round.
The heat pumps can even be cost effective with certain considerations. The GSHPs are most
likely to be successful. All the suitable conditions for the proper working of the heat pumps need
to be understood such that the implementation can be proper and correct. The cost effectiveness
and the economic and political factors should also be kept in mind. The financial analysis and
the economic breakdowns of the heat pumps are mentioned clearly. This helps in clearly
understanding the implications of the proper use of the heat pumps as and when required.
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13GROUND SOURCE HEAT PUMPS ASSIGNMENT
References:
Ally, M. R., Munk, J. D., Baxter, V. D., & Gehl, A. C. (2015). Exergy analysis of a two-stage
ground source heat pump with a vertical bore for residential space conditioning under
simulated occupancy. Applied Energy, 155, 502-514.
Banks, D. (2012). An introduction to thermogeology: ground source heating and cooling. John
Wiley & Sons.
Bayer, P., Saner, D., Bolay, S., Rybach, L., & Blum, P. (2012). Greenhouse gas emission savings
of ground source heat pump systems in Europe: a review. Renewable and Sustainable
Energy Reviews, 16(2), 1256-1267.
Chong, C. S. A., Gan, G., Verhoef, A., Garcia, R. G., & Vidale, P. L. (2013). Simulation of
thermal performance of horizontal slinky-loop heat exchangers for ground source heat
pumps. Applied energy, 104, 603-610.
Erbay, Z., & Hepbasli, A. (2014). Application of conventional and advanced exergy analyses to
evaluate the performance of a ground-source heat pump (GSHP) dryer used in food
drying. Energy Conversion and Management, 78, 499-507.
Lundström, L., & Wallin, F. (2016). Heat demand profiles of energy conservation measures in
buildings and their impact on a district heating system. Applied Energy, 161, 290-299.
Luo, J., Rohn, J., Bayer, M., Priess, A., Wilkmann, L., & Xiang, W. (2015). Heating and cooling
performance analysis of a ground source heat pump system in Southern Germany.
Geothermics, 53, 57-66.
References:
Ally, M. R., Munk, J. D., Baxter, V. D., & Gehl, A. C. (2015). Exergy analysis of a two-stage
ground source heat pump with a vertical bore for residential space conditioning under
simulated occupancy. Applied Energy, 155, 502-514.
Banks, D. (2012). An introduction to thermogeology: ground source heating and cooling. John
Wiley & Sons.
Bayer, P., Saner, D., Bolay, S., Rybach, L., & Blum, P. (2012). Greenhouse gas emission savings
of ground source heat pump systems in Europe: a review. Renewable and Sustainable
Energy Reviews, 16(2), 1256-1267.
Chong, C. S. A., Gan, G., Verhoef, A., Garcia, R. G., & Vidale, P. L. (2013). Simulation of
thermal performance of horizontal slinky-loop heat exchangers for ground source heat
pumps. Applied energy, 104, 603-610.
Erbay, Z., & Hepbasli, A. (2014). Application of conventional and advanced exergy analyses to
evaluate the performance of a ground-source heat pump (GSHP) dryer used in food
drying. Energy Conversion and Management, 78, 499-507.
Lundström, L., & Wallin, F. (2016). Heat demand profiles of energy conservation measures in
buildings and their impact on a district heating system. Applied Energy, 161, 290-299.
Luo, J., Rohn, J., Bayer, M., Priess, A., Wilkmann, L., & Xiang, W. (2015). Heating and cooling
performance analysis of a ground source heat pump system in Southern Germany.
Geothermics, 53, 57-66.
14GROUND SOURCE HEAT PUMPS ASSIGNMENT
Montagud, C., Corberán, J. M., & Ruiz-Calvo, F. (2013). Experimental and modeling analysis of
a ground source heat pump system. Applied energy, 109, 328-336.
Sarbu, I., & Sebarchievici, C. (2014). General review of ground-source heat pump systems for
heating and cooling of buildings. Energy and buildings, 70, 441-454.
Self, S. J., Reddy, B. V., & Rosen, M. A. (2013). Geothermal heat pump systems: Status review
and comparison with other heating options. Applied Energy, 101, 341-348.
Sivasakthivel, T., Murugesan, K., & Thomas, H. R. (2014). Optimization of operating
parameters of ground source heat pump system for space heating and cooling by Taguchi
method and utility concept. Applied Energy, 116, 76-85.
Snape, J. R., Boait, P. J., & Rylatt, R. M. (2015). Will domestic consumers take up the renewable
heat incentive? An analysis of the barriers to heat pump adoption using agent-based
modelling. Energy Policy, 85, 32-38.
Wang, E., Fung, A. S., Qi, C., & Leong, W. H. (2012). Performance prediction of a hybrid solar
ground-source heat pump system. Energy and Buildings, 47, 600-611.
Wu, W., Wang, B., You, T., Shi, W., & Li, X. (2013). A potential solution for thermal imbalance
of ground source heat pump systems in cold regions: ground source absorption heat
pump. Renewable Energy, 59, 39-48.
Yang, W., Sun, L., & Chen, Y. (2015). Experimental investigations of the performance of a
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