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Modeling and Experimental Validation of a Transient Direct Expansion Heat Pump with CO2 = = Modeling and experimental validation of a transient direct expansion heat pump with CO2.

紀錄類型:	書目-語言資料,手稿 : Monograph/item
正題名/作者:	Modeling and Experimental Validation of a Transient Direct Expansion Heat Pump with CO2 =/
其他題名:	Modeling and experimental validation of a transient direct expansion heat pump with CO2.
其他題名:	bModeling and experimental validation of a transient direct expansion heat pump with CO2.
作者:	Rousseau, Clement.
面頁冊數:	1 online resource (145 pages)
附註:	Source: Dissertation Abstracts International, Volume: 79-08(E), Section: B.
Contained By:	Dissertation Abstracts International79-08B(E).
標題:	Mechanical engineering. -
電子資源:	click for full text (PQDT)
ISBN:	9780355811759

Modeling and Experimental Validation of a Transient Direct Expansion Heat Pump with CO2 = = Modeling and experimental validation of a transient direct expansion heat pump with CO2.
Rousseau, Clement.

Modeling and Experimental Validation of a Transient Direct Expansion Heat Pump with CO2 =Modeling and experimental validation of a transient direct expansion heat pump with CO2.bModeling and experimental validation of a transient direct expansion heat pump with CO2. - 1 online resource (145 pages)

Source: Dissertation Abstracts International, Volume: 79-08(E), Section: B.

Thesis (D.Eng.)--Ecole de Technologie Superieure (Canada), 2017.

Includes bibliographical references

Geothermal heat pump technology is currently one of the most interesting technologies used to heat buildings. There are two designs used in the industry: geothermal heat pumps using a secondary ground loop and Direct Expansion (DX) ground source heat pump. The latter is less used, with one of the possible reasons being that less research has carried out into the design of this sort of heat pump. In this study, a DX ground source heat pump CO2 was analyzed to fill this gap. After a review of the state of the art of the aspect, three articles are going to respond to the objective of this study:

Electronic reproduction.
Ann Arbor, Mich. :
ProQuest,
2018

Mode of access: World Wide Web

ISBN: 9780355811759Subjects--Topical Terms:

557493
Mechanical engineering.
Index Terms--Genre/Form:

554714
Electronic books.

Modeling and Experimental Validation of a Transient Direct Expansion Heat Pump with CO2 = = Modeling and experimental validation of a transient direct expansion heat pump with CO2.
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245 1 0 $a Modeling and Experimental Validation of a Transient Direct Expansion Heat Pump with CO2 = $b Modeling and experimental validation of a transient direct expansion heat pump with CO2.
246 3 1 $a bModeling and experimental validation of a transient direct expansion heat pump with CO2.
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300 $a 1 online resource (145 pages)
336 $a text $b txt $2 rdacontent
337 $a computer $b c $2 rdamedia
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500 $a Source: Dissertation Abstracts International, Volume: 79-08(E), Section: B.
500 $a Advisers: Louis Lamarche; Mohamed Ouzzane.
502 $a Thesis (D.Eng.)--Ecole de Technologie Superieure (Canada), 2017.
504 $a Includes bibliographical references
520 $a Geothermal heat pump technology is currently one of the most interesting technologies used to heat buildings. There are two designs used in the industry: geothermal heat pumps using a secondary ground loop and Direct Expansion (DX) ground source heat pump. The latter is less used, with one of the possible reasons being that less research has carried out into the design of this sort of heat pump. In this study, a DX ground source heat pump CO2 was analyzed to fill this gap. After a review of the state of the art of the aspect, three articles are going to respond to the objective of this study:
520 $a - Development of a transient ground evaporator model with R22 and CO 2;
520 $a - Development of a DX geothermal heat pump model with R22;
520 $a - Development of a DX geothermal heat pump model with CO2;
520 $a - Analysis of a transient DX geothermal heat pump with CO2 in heating mode.
520 $a In the first phase, a model of a transient ground exchanger in the evaporator mode with R22 was developed. This model was validated using a comparison with an experiment realized in the CTT of ETS Montreal. The difference between the output of the model (heat extraction and pressure drop) and the experiment was less than 10%. After that, a parametric study shows that to optimize the heat extraction; the length of the borehole needs to be optimal (complete evaporation with a small superheat), the angle between the borehole and the horizontal and the mass flow rate need to be small.
520 $a This model was used in the second part of this thesis to create a complete transient model of a DX heat pump in heating mode using R22. This model contained the four elements of the heat pump: exchanger R22-water, the geothermal exchanger, the compressor and the expansion valve. The complexity of this study is the transient coupling between this model and the control of the superheat at the entry of the compressor during time. Again here, this model was validated using a comparison with an experiment; the difference was low (less than 15%) for a 24-hour test. Using this model, a parametric study of the geometry of the ground exchanger was developed. In conclusion, to have the best heat extraction of the ground, the pipes shank spacing need to be maximized without increasing the borehole diameter.
520 $a The last part of this thesis is a study of a DX geothermal heat pump using CO2 using the model previous developed. The thermodynamic cycle is changed in this model; a transcritical cycle is used with an intermediate heat exchanger between the high and low pressure. This model was validated using tests realized in CANMET Energie at Varennes. A study on the use of the intermediate exchanger and a new control law of the pressure in the gas cooler were developed. This study concludes that to have the best performance, the intermediate heat exchanger needs to be used at 100% (all the flow going to the exchanger) and the new law created needs to be implemented in the valve control system.
520 $a To conclude, the DX geothermal heat pump was been studied with different configurations: Carnot cycle and transcritical cycle with CO2. Two transient models were developed and validated using experimental results. Using these models a lot of recommendations for the design of this technology was developed. A more complex design method can be developed using these models in a future study.
520 $a Geothermal heat pump technology is currently one of the most interesting technologies used.
520 $a to heat buildings. There are two designs used in the industry: geothermal heat pumps using a.
520 $a secondary ground loop and Direct Expansion (DX) ground source heat pump. The latter is.
520 $a less used, with one of the possible reasons being that less research has carried out into the.
520 $a design of this sort of heat pump. In this study, a DX ground source heat pump CO2 was.
520 $a analyzed to fill this gap. After a review of the state of the art of the aspect, three articles are.
520 $a going to respond to the objective of this study:
520 $a - Development of a transient ground evaporator model with R22 and CO2;
520 $a - Development of a DX geothermal heat pump model with R22;
520 $a - Development of a DX geothermal heat pump model with CO2;
520 $a - Analysis of a transient DX geothermal heat pump with CO2 in heating mode.
520 $a In the first phase, a model of a transient ground exchanger in the evaporator mode with R22.
520 $a was developed. This model was validated using a comparison with an experiment realized in.
520 $a the CTT of ETS Montreal. The difference between the output of the model (heat extraction.
520 $a and pressure drop) and the experiment was less than 10%. After that, a parametric study.
520 $a shows that to optimize the heat extraction; the length of the borehole needs to be optimal.
520 $a (complete evaporation with a small superheat), the angle between the borehole and the.
520 $a horizontal and the mass flow rate need to be small.
520 $a This model was used in the second part of this thesis to create a complete transient model of.
520 $a a DX heat pump in heating mode using R22. This model contained the four elements of the.
520 $a heat pump: exchanger R22-water, the geothermal exchanger, the compressor and the.
520 $a expansion valve. The complexity of this study is the transient coupling between this model.
520 $a and the control of the superheat at the entry of the compressor during time. Again here, this.
520 $a model was validated using a comparison with an experiment; the difference was low (less.
520 $a than 15%) for a 24-hour test. Using this model, a parametric study of the geometry of the.
520 $a ground exchanger was developed. In conclusion, to have the best heat extraction of the.
520 $a ground, the pipes shank spacing need to be maximized without increasing the borehole.
520 $a diameter.
520 $a The last part of this thesis is a study of a DX geothermal heat pump using CO2 using the.
520 $a model previous developed. The thermodynamic cycle is changed in this model; a transcritical.
520 $a cycle is used with an intermediate heat exchanger between the high and low pressure. This.
520 $a model was validated using tests realized in CANMET Energie at Varennes. A study on the.
520 $a use of the intermediate exchanger and a new control law of the pressure in the gas cooler.
520 $a were developed. This study concludes that to have the best performance, the intermediate heat exchanger needs to be used at 100% (all the flow going to the exchanger) and the new.
520 $a law created needs to be implemented in the valve control system.
520 $a To conclude, the DX geothermal heat pump was been studied with different configurations:
520 $a Carnot cycle and transcritical cycle with CO2. Two transient models were developed and.
520 $a validated using experimental results. Using these models a lot of recommendations for the.
520 $a design of this technology was developed. A more complex design method can be developed.
520 $a using these models in a future study.
533 $a Electronic reproduction. $b Ann Arbor, Mich. : $c ProQuest, $d 2018
538 $a Mode of access: World Wide Web
650 4 $a Mechanical engineering. $3 557493
655 7 $a Electronic books. $2 local $3 554714
690 $a 0548
710 2 $a ProQuest Information and Learning Co. $3 1178819
710 2 $a Ecole de Technologie Superieure (Canada). $b Departement de genie mecanique. $3 1192042
773 0 $t Dissertation Abstracts International $g 79-08B(E).
856 4 0 $u http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=10752315 $z click for full text (PQDT)