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Extract from the Register of European Patents

EP About this file: EP3390928

EP3390928 - DEVICES WITH HYBRID VAPOUR COMPRESSION-ADSORPTION CYCLE AND METHOD FOR IMPLEMENTATION THEREOF [Right-click to bookmark this link]
StatusExamination is in progress
Status updated on  26.05.2023
Database last updated on 13.07.2024
FormerThe application is deemed to be withdrawn
Status updated on  16.04.2021
FormerExamination is in progress
Status updated on  25.05.2020
FormerRequest for examination was made
Status updated on  21.09.2018
FormerThe international publication has been made
Status updated on  23.06.2017
Formerunknown
Status updated on  21.03.2017
Most recent event   Tooltip13.04.2024New entry: Reply to examination report 
Applicant(s)For all designated states
Bry-Air (Asia) Pvt. Ltd.
20, Rajpur Road
Delhi 110054 / IN
[2018/43]
Inventor(s)01 / SAHA, Bidyut Baran
Kasuga-shi
Takara-machi
2-3-1
Alfa States Kasuga II, 205
Fukuoka 816-0807 / JP
02 / THU, Kyaw
BLK 706
04-06
Woodlands Drive 40
Singapore 730706 / SG
03 / PAHWA, Deepak
20
Rajpur Road
Delhi 110054 / IN
04 / SACHDEV, Rajan
C-1 1/222
Sector 3
Rohini
Delhi 110085 / IN
05 / MALIK, Kuldeep Singh
A 16
Block Phase I
Dindarpur Extn
Shyam Vihar
Najafgarh New Delhi 110043 / IN
 [2018/43]
Representative(s)Office Freylinger
P.O. Box 48
8001 Strassen / LU
[2018/43]
Application number, filing date16845330.619.12.2016
[2018/43]
WO2016IN00290
Priority number, dateIN2015DEL415418.12.2015         Original published format: IN 4154DE2015
[2018/43]
Filing languageEN
Procedural languageEN
PublicationType: A1 Application with search report
No.:WO2017103939
Date:22.06.2017
Language:EN
[2017/25]
Type: A1 Application with search report 
No.:EP3390928
Date:24.10.2018
Language:EN
The application published by WIPO in one of the EPO official languages on 22.06.2017 takes the place of the publication of the European patent application.
[2018/43]
Search report(s)International search report - published on:EP22.06.2017
ClassificationIPC:F25B25/02, F25B49/04, F25B17/08, F25B17/04, F25B13/00, F25B41/04, F25B40/02
[2018/43]
CPC:
F25B25/02 (EP,KR,US); F25B13/00 (EP,KR,US); F25B17/04 (EP,KR,US);
F25B17/083 (EP,KR,US); F25B40/02 (EP,KR,US); F25B41/26 (KR);
F25B41/28 (EP,US); F25B49/046 (EP,KR,US); F25B2339/047 (EP,KR,US);
Y02A30/27 (EP,KR,US); Y02B30/00 (EP,KR,US) (-)
Designated contracting statesAL,   AT,   BE,   BG,   CH,   CY,   CZ,   DE,   DK,   EE,   ES,   FI,   FR,   GB,   GR,   HR,   HU,   IE,   IS,   IT,   LI,   LT,   LU,   LV,   MC,   MK,   MT,   NL,   NO,   PL,   PT,   RO,   RS,   SE,   SI,   SK,   SM,   TR [2018/43]
TitleGerman:VORRICHTUNGEN MIT HYBRIDEM DAMPFKOMPRESSIONSADSORPTIONSZYKLUS UND VERFAHREN ZUR IMPLEMENTIERUNG DAVON[2018/43]
English:DEVICES WITH HYBRID VAPOUR COMPRESSION-ADSORPTION CYCLE AND METHOD FOR IMPLEMENTATION THEREOF[2018/43]
French:DISPOSITIFS À CYCLE HYBRIDE DE COMPRESSION-ADSORPTION DE VAPEUR ET LEUR PROCÉDÉ DE MISE EN OEUVRE[2018/43]
Entry into regional phase17.07.2018National basic fee paid 
17.07.2018Designation fee(s) paid 
17.07.2018Examination fee paid 
Examination procedure17.07.2018Examination requested  [2018/43]
17.07.2018Date on which the examining division has become responsible
13.02.2019Amendment by applicant (claims and/or description)
28.05.2020Despatch of a communication from the examining division (Time limit: M06)
08.12.2020Application deemed to be withdrawn, date of legal effect  [2021/20]
24.03.2021Reply to a communication from the examining division
deletedDeletion: Application deemed to be withdrawn, date of legal effect  [2023/26]
14.01.2021Despatch of communication that the application is deemed to be withdrawn, reason: reply to the communication from the examining division not received in time  [2023/26]
02.10.2023Despatch of a communication from the examining division (Time limit: M06)
11.04.2024Reply to a communication from the examining division
Request for further processing for:The application is deemed to be withdrawn due to failure to reply to the examination report
24.03.2021Request for further processing filed
24.03.2021Full payment received (date of receipt of payment)
Request granted
31.05.2023Decision despatched
Request for re-establishment of rights:14.03.2022Date of receipt
Fees paidRenewal fee
16.11.2018Renewal fee patent year 03
15.10.2019Renewal fee patent year 04
14.03.2022Renewal fee patent year 05
14.03.2022Renewal fee patent year 06
27.06.2023Renewal fee patent year 07
22.12.2023Renewal fee patent year 08
Penalty fee
Additional fee for renewal fee
31.12.202005   M06   Fee paid on   14.03.2022
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Responsibility for the accuracy, completeness or quality of the data displayed under the link provided lies entirely with the Unified Patent Court.
Cited inInternational search[XI]EP0515923  (POLYCOLD SYSTEMS INTERNATIONAL [US]) [X] 1-11,13-17,19-29,31-35,37-41 * column 5 - column 13; figures 1,2 * [I] 12,18,30,36,42,43;
 [A]US2003221438  (RANE MILIND V [IN], et al) [A] 1-43 * paragraph [0253] - paragraph [0255]; figure 5 *;
 [A]JP2005090825  (TOSHIBA CARRIER KK) [A] 1-43* paragraph [0012] - paragraph [0049]; figures 1-4 *
by applicantWO2009145278
 US7926294
 JP2012037203
 EP2775236
 US9239177
    - TULAPURKAR C; KHANDELWAL R; CENTRE T, "Transient Lumped Parameter Modeling For Vapour Compression Cycle Based Corresponding Author", REFRIG AIR COND, (2010), pages 1 - 8
    - LEPORE R; REMY M; DUMONT E; FRERE M, "Dynamic lumped-parameter model of a heat pump designed for performance optimization", BUILD SIMUL, (2012), vol. 5, doi:doi:10.1007/s12273-012-0080-9, pages 233 - 42, XP035084912

DOI:   http://dx.doi.org/10.1007/s12273-012-0080-9
    - HE X-D; LIU S; ASADA HH, "Modeling of Vapor Compression Cycles for Multivariable Feedback Control of HVAC Systems", J DYN SYST MEAS CONTROL, (1997), pages 119 - 183
    - CHUA HT; TOH HK; NG KC, "Thermodynamic modeling of an ammonia-water absorption chiller", INT J REFRIG, (2002), vol. 25, doi:doi:10.1016/S0140-7007(01)00101-3, pages 896 - 906, XP004380944

DOI:   http://dx.doi.org/10.1016/S0140-7007(01)00101-3
    - SAHA BB; EI-SHARKAWY II; SHAHZAD MW; THU K; ANG L; NG KC, "Fundamental and application aspects of adsorption cooling and desalination", APPL THERM ENG, (2015), vol. 97, doi:doi:10.1016/j.applthermaleng.2015.09.113, pages 68 - 76, XP029472508

DOI:   http://dx.doi.org/10.1016/j.applthermaleng.2015.09.113
    - NG KC, "Recent developments in heat-driven silica gel-water adsorption chillers", HEAT TRANSF ENG, (2003), vol. 24, pages 1 - 3
    - GORDON JM; NG KC, "A general thermodynamic model for absorption chillers: Theory and experiment", HEAT RECOVER SYST CHP, (1995), vol. 15, pages 73 - 83
    - NG KC; TU K; CHUA HT; GORDON JM; KASHIWAGI T; AKISAWA A ET AL., "Thermodynamic analysis of absorption chillers: internal dissipation and process average temperature", APPL THERM ENG, (1998), vol. 18, pages 671 - 82
The EPO accepts no responsibility for the accuracy of data originating from other authorities; in particular, it does not guarantee that it is complete, up to date or fit for specific purposes.