Multi-disciplinary model for preliminary design of electro-mechanical servo pump

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Standard

Multi-disciplinary model for preliminary design of electro-mechanical servo pump. / Han, Xu; Minav, Tatiana; Fu, JIan; Fu, Yongling; Pietola, Matti; Zhang, Peng.

16th Scandinavian International Conference on Fluid Power, SICFP 2019. ed. / Kalevi Huhtala. TAMPEREEN YLIOPISTO, 2019. p. 362-374.

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Harvard

Han, X, Minav, T, Fu, JI, Fu, Y, Pietola, M & Zhang, P 2019, Multi-disciplinary model for preliminary design of electro-mechanical servo pump. in K Huhtala (ed.), 16th Scandinavian International Conference on Fluid Power, SICFP 2019. TAMPEREEN YLIOPISTO, pp. 362-374, Scandinavian International Conference on Fluid Power, Tampere, Finland, 22/05/2019.

APA

Han, X., Minav, T., Fu, JI., Fu, Y., Pietola, M., & Zhang, P. (2019). Multi-disciplinary model for preliminary design of electro-mechanical servo pump. In K. Huhtala (Ed.), 16th Scandinavian International Conference on Fluid Power, SICFP 2019 (pp. 362-374). TAMPEREEN YLIOPISTO.

Vancouver

Han X, Minav T, Fu JI, Fu Y, Pietola M, Zhang P. Multi-disciplinary model for preliminary design of electro-mechanical servo pump. In Huhtala K, editor, 16th Scandinavian International Conference on Fluid Power, SICFP 2019. TAMPEREEN YLIOPISTO. 2019. p. 362-374

Author

Han, Xu ; Minav, Tatiana ; Fu, JIan ; Fu, Yongling ; Pietola, Matti ; Zhang, Peng. / Multi-disciplinary model for preliminary design of electro-mechanical servo pump. 16th Scandinavian International Conference on Fluid Power, SICFP 2019. editor / Kalevi Huhtala. TAMPEREEN YLIOPISTO, 2019. pp. 362-374

Bibtex - Download

@inproceedings{1ac5142ee0b740f691fcaea8136ce51d,
title = "Multi-disciplinary model for preliminary design of electro-mechanical servo pump",
abstract = "A new electro-mechanical servo pump (EMSP) is proposed for high-power variable pump fixed motor electro-hydrostatic actuator for heavy-duty vehicle application. The EMSP has a highly integrated structure with the displacement regulating unit inside the same shell. This results in more challenges for sizing during design stage. Therefore, a dedicated multidisciplinary model for the EMSP preliminary design is presented in this paper. Initially model parameters are analysed and classified into different categories. As a result, only a fraction of parameters such as pump displacement, motor nominal torque, etc. was employed for active EMSP sizing to achieve more effective trade off and optimization. Rest of parameters were generated automatically with various methods such as scaling laws, product database, and empirical equations. Next, the hydraulic, electrical and thermal dynamic characteristics were investigated in the model. Finally, a multidisciplinary model equipped with the parameter generation tools was proposed as a practical tool for the EMSP preliminary design. At last, dynamic simulation results of hydraulic, electrical and thermal under typical cycles were utilised to verify the model functionality. The performance of the given EMSP design option can be evaluated by the proposed model, which makes the preliminary design and optimization feasible.",
keywords = "electro-mechanical servo pump, preliminary design, multi-disciplinary model, limited parameters, fixed motor variable pump electro-hydrostatic actuator",
author = "Xu Han and Tatiana Minav and JIan Fu and Yongling Fu and Matti Pietola and Peng Zhang",
year = "2019",
month = "5",
day = "22",
language = "English",
isbn = "978-952-03-1125-4",
pages = "362--374",
editor = "Kalevi Huhtala",
booktitle = "16th Scandinavian International Conference on Fluid Power, SICFP 2019",
publisher = "TAMPEREEN YLIOPISTO",
address = "Finland",

}

RIS - Download

TY - GEN

T1 - Multi-disciplinary model for preliminary design of electro-mechanical servo pump

AU - Han, Xu

AU - Minav, Tatiana

AU - Fu, JIan

AU - Fu, Yongling

AU - Pietola, Matti

AU - Zhang, Peng

PY - 2019/5/22

Y1 - 2019/5/22

N2 - A new electro-mechanical servo pump (EMSP) is proposed for high-power variable pump fixed motor electro-hydrostatic actuator for heavy-duty vehicle application. The EMSP has a highly integrated structure with the displacement regulating unit inside the same shell. This results in more challenges for sizing during design stage. Therefore, a dedicated multidisciplinary model for the EMSP preliminary design is presented in this paper. Initially model parameters are analysed and classified into different categories. As a result, only a fraction of parameters such as pump displacement, motor nominal torque, etc. was employed for active EMSP sizing to achieve more effective trade off and optimization. Rest of parameters were generated automatically with various methods such as scaling laws, product database, and empirical equations. Next, the hydraulic, electrical and thermal dynamic characteristics were investigated in the model. Finally, a multidisciplinary model equipped with the parameter generation tools was proposed as a practical tool for the EMSP preliminary design. At last, dynamic simulation results of hydraulic, electrical and thermal under typical cycles were utilised to verify the model functionality. The performance of the given EMSP design option can be evaluated by the proposed model, which makes the preliminary design and optimization feasible.

AB - A new electro-mechanical servo pump (EMSP) is proposed for high-power variable pump fixed motor electro-hydrostatic actuator for heavy-duty vehicle application. The EMSP has a highly integrated structure with the displacement regulating unit inside the same shell. This results in more challenges for sizing during design stage. Therefore, a dedicated multidisciplinary model for the EMSP preliminary design is presented in this paper. Initially model parameters are analysed and classified into different categories. As a result, only a fraction of parameters such as pump displacement, motor nominal torque, etc. was employed for active EMSP sizing to achieve more effective trade off and optimization. Rest of parameters were generated automatically with various methods such as scaling laws, product database, and empirical equations. Next, the hydraulic, electrical and thermal dynamic characteristics were investigated in the model. Finally, a multidisciplinary model equipped with the parameter generation tools was proposed as a practical tool for the EMSP preliminary design. At last, dynamic simulation results of hydraulic, electrical and thermal under typical cycles were utilised to verify the model functionality. The performance of the given EMSP design option can be evaluated by the proposed model, which makes the preliminary design and optimization feasible.

KW - electro-mechanical servo pump

KW - preliminary design

KW - multi-disciplinary model

KW - limited parameters

KW - fixed motor variable pump electro-hydrostatic actuator

UR - http://urn.fi/URN:ISBN:978-952-03-1302-9

M3 - Conference contribution

SN - 978-952-03-1125-4

SP - 362

EP - 374

BT - 16th Scandinavian International Conference on Fluid Power, SICFP 2019

A2 - Huhtala, Kalevi

PB - TAMPEREEN YLIOPISTO

ER -

ID: 40399369