WO2023155961 - NATURAL GAS TREATMENT PLANT TRAIN: PROTOTYPE MERCURY REMOVAL UNIT WITH ENHANCED EFFICIENCY
National phase entry is expected:
Publication Number
WO/2023/155961
Publication Date
24.08.2023
International Application No.
PCT/EG2023/050004
International Filing Date
20.02.2023
Title **
[English]
NATURAL GAS TREATMENT PLANT TRAIN: PROTOTYPE MERCURY REMOVAL UNIT WITH ENHANCED EFFICIENCY
[French]
FORMATION D'USINE DE TRAITEMENT DE GAZ NATUREL : UNITÉ D'ÉLIMINATION DE MERCURE PROTOTYPE À EFFICACITÉ AMÉLIORÉE
Applicants **
DARWESH, Aboubakr, Ahmed, Mohamed, Soliman
26 Khedr Eltoney Nasr City
Cairo, 11371, EG
Inventors
DARWESH, Aboubakr, Ahmed, Mohamed, Soliman
26 Khedr Eltoney Nasr City
Cairo, 11371, EG
Priority Data
EG/P/2022/208
21.02.2022
EG
Application details
| Total Number of Claims/PCT | * |
| Number of Independent Claims | * |
| Number of Priorities | * |
| Number of Multi-Dependent Claims | * |
| Number of Drawings | * |
| Pages for Publication | * |
| Number of Pages with Drawings | * |
| Pages of Specification | * |
| * | |
| * | |
International Searching Authority |
EGPO
* |
| Applicant's Legal Status |
Natural Person
* |
| * | |
| * | |
| * | |
| Entry into National Phase under |
Chapter I
* |
| Translation |
|
Recalculate
* The data is based on automatic recognition. Please verify and amend if necessary.
** IP-Coster compiles data from publicly available sources. If this data includes your personal information, you can contact us to request its removal.
Quotation for National Phase entry
| Country | Stages | Total | |
|---|---|---|---|
| China | Filing | 959 | |
| EPO | Filing, Examination | 4903 | |
| Japan | Filing | 594 | |
| South Korea | Filing | 575 | |
| USA | Filing, Examination | 4510 |
Total: 11541 USD
The term for entry into the National Phase has expired. This quotation is for informational purposes only
Abstract[English]
), the specifications required by NGL & LNG cryogenic units without the need to install a second MRU. The higher efficiency could be attained with low CAPEX (lower by ~30 %) in comparison with traditional axial flow fixed-bed reactors packed with CuS & ZnS macrosorbents. Besides, the OPEX could be reduced for MNSIMS by 90 % in comparison with activated carbon sorbents.[French]
), les spécifications requises par les unités cryogéniques NGL et LNG ne nécessitant pas d'installer une deuxième MRU. L'efficacité supérieure pourrait être obtenue avec un faible CAPEX (inférieur de ~ 30 %) par rapport aux réacteurs à lit fixe à écoulement axial classiques emballés avec des macrosorbants de CuS et ZnS. En outre, l'OPEX pourrait être réduit de 90 % pour MNSIMS par comparaison avec des sorbants de charbon actif.