WE ARE PROFESSIONAL IN PROVIDING SURVEY OF LOAD STOWING SECURE UNDER LOADING MASTERS, PORT CAPTAIN, LOADING EXPERTS, CONSULTANT OVERS 20 YEARS IN HEAVY LIFTING OF SUPER CARGO AND PROJECT FOR OVERSIZE AND OVER WEIGHT IN SAFE FROM MEETING, PRE-LOADING, LOADING, SECURING, LASHING AND REPORT TO RELEASE, DISCHARGING, REPORT FOR SHIPPING OF VESSELS . . .
SEE MORE
http://www.inspection.vn/eg/s/348/0/load-stowage-securing-lashing-survey.htm
Kind regards,
Dr Capt. Nguyen Te Nhan / G.D
Agriculture - Industry - Marine Survey & Inspection Group
------------------------------------------------------------------------------------------------------------------
Tel : +84-8-3832-7204
Fax : +84-8-3832-8393
Cell. : +84903-615-612
E-mail: aimcontrol@aimcontrolgroup.com
inspection@aimcontrolgroup.com
MSN : aimcontrol@hotmail.com
Skype: aimcontrol
http://www.aimcontrolgroup.com
------------------------------------------------------------------------------------------------------------------
WE ARE PROFESSIONAL IN PROVIDING SURVEY OF LOAD STOWING SECURE UNDER LOADING MASTERS, PORT CAPTAIN, LOADING EXPERTS, CONSULTANT OVERS 20 YEARS IN HEAVY LIFTING OF SUPER CARGO AND PROJECT FOR OVERSIZE AND OVER WEIGHT IN SAFE FROM MEETING, PRE-LOADING, LOADING, SECURING, LASHING AND REPORT TO RELEASE, DISCHARGING, REPORT FOR SHIPPING OF VESSELS . . .
SEE MORE
http://www.inspection.vn/eg/s/348/0/load-stowage-securing-lashing-survey.htm
Kind regards,
Dr Capt. Nguyen Te Nhan / G.D
Agriculture - Industry - Marine Survey & Inspection Group
------------------------------------------------------------------------------------------------------------------
Tel : +84-8-3832-7204
Fax : +84-8-3832-8393
Cell. : +84903-615-612
E-mail: aimcontrol@aimcontrolgroup.com
inspection@aimcontrolgroup.com
MSN : aimcontrol@hotmail.com
Skype: aimcontrol
http://www.aimcontrolgroup.com
------------------------------------------------------------------------------------------------------------------
A large part of the Norwegian gas and oil production facilities has reached their initial design life, but the respective fields are still producing substantial levels of hydrocarbons. In order to ensure technical and operational integrity of these ageing facilities the Norwegian oil industry Association (OLF) has initiated a project to establish the necessary standards and guidelines for assessing and ensuring safe life extensions. This paper presents this project and the headlines of these standards and guidelines.
Each offshore platform reaches the end of its lifetime at some point, and this necessitates decommissioning. This activity must be done safely, cost effectively and with as little environmental pollution as possible. While the life spans of these installations cover decades, they have not generally been designed with efficient decommissioning in mind. Moreover, the places where the facilities have been constructed are pivotal in defining the safest and most sustainable decommissioning method.
This 3 day training course will address the key issues surrounding an offshore decommissioning project. You will be exposed to key lessons learnt from Frigg, NW Hutton and Ekofisk, as well as lesson specifically derived from projects in based in Asia. The course will also assist in understanding the planning and decision analysis in decommissioning projects and costs involved.
An Overview of Design, Analysis, Construction and Installation of Offshore Pe...Professor Kabir Sadeghi
Offshore structures are used worldwide for a variety of functions and in a variety of water depths, and environments. Since right selection of equipment, types of
platforms and method of drilling and also right planning, design, fabrication, transportation, installation and commissioning of petroleum platforms, considering
the water depth and environment conditions are very important, this paper will present a general overview of these aspects. This paper reviews the fundamentals
behind all types of offshore structures (fixed or floating) and, in the case of fixed platforms, will cover applications of these principles. The overall objective is to provide a general understanding of different stages of design, construction, loadout, transportation and installation of offshore platforms. Finally, for different sea-water
depths, in which the Cyprus platforms are intended to be installed, suitable kinds of offshore platforms are proposed.
Offshore wind turbines are relatively complex structural and mechanical systems located ina highly demanding environment. In this study, the fundamental aspects and major issues related to the design of such structures are inquired. The system approach is proposed to carry out the design of the structural parts: in accordance with this philosophy, a decomposition of the system (environment, structure, actions/loads) and of the structural
performance is carried out, in order to organize the qualitative and quantitative assessment in various sub-problems. These can be faced by sub-models of different complexity both for the structural behavior and for the load models. Numerical models are developed to assess the safety performance under aerodynamic and hydrodynamic actions. In the structural analyses, three types of turbine support structures have been considered and compared: a
monopile, a tripod and a jacket.
A large part of the Norwegian gas and oil production facilities has reached their initial design life, but the respective fields are still producing substantial levels of hydrocarbons. In order to ensure technical and operational integrity of these ageing facilities the Norwegian oil industry Association (OLF) has initiated a project to establish the necessary standards and guidelines for assessing and ensuring safe life extensions. This paper presents this project and the headlines of these standards and guidelines.
Each offshore platform reaches the end of its lifetime at some point, and this necessitates decommissioning. This activity must be done safely, cost effectively and with as little environmental pollution as possible. While the life spans of these installations cover decades, they have not generally been designed with efficient decommissioning in mind. Moreover, the places where the facilities have been constructed are pivotal in defining the safest and most sustainable decommissioning method.
This 3 day training course will address the key issues surrounding an offshore decommissioning project. You will be exposed to key lessons learnt from Frigg, NW Hutton and Ekofisk, as well as lesson specifically derived from projects in based in Asia. The course will also assist in understanding the planning and decision analysis in decommissioning projects and costs involved.
An Overview of Design, Analysis, Construction and Installation of Offshore Pe...Professor Kabir Sadeghi
Offshore structures are used worldwide for a variety of functions and in a variety of water depths, and environments. Since right selection of equipment, types of
platforms and method of drilling and also right planning, design, fabrication, transportation, installation and commissioning of petroleum platforms, considering
the water depth and environment conditions are very important, this paper will present a general overview of these aspects. This paper reviews the fundamentals
behind all types of offshore structures (fixed or floating) and, in the case of fixed platforms, will cover applications of these principles. The overall objective is to provide a general understanding of different stages of design, construction, loadout, transportation and installation of offshore platforms. Finally, for different sea-water
depths, in which the Cyprus platforms are intended to be installed, suitable kinds of offshore platforms are proposed.
Offshore wind turbines are relatively complex structural and mechanical systems located ina highly demanding environment. In this study, the fundamental aspects and major issues related to the design of such structures are inquired. The system approach is proposed to carry out the design of the structural parts: in accordance with this philosophy, a decomposition of the system (environment, structure, actions/loads) and of the structural
performance is carried out, in order to organize the qualitative and quantitative assessment in various sub-problems. These can be faced by sub-models of different complexity both for the structural behavior and for the load models. Numerical models are developed to assess the safety performance under aerodynamic and hydrodynamic actions. In the structural analyses, three types of turbine support structures have been considered and compared: a
monopile, a tripod and a jacket.
SEB Cable Laying & Cable Pulling Equipment enables the installation of LV-HV power, fibre optic, telecoms, subsea cables and umbilicals into cable duct or cable trench.
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Pigging Solutions is now providing pre-assembled and skid mounted pigging hardware making system installation faster so you can begin receiving the cost-saving benefits of pigging quicker than ever before.
2. TRANSPOTATION AND INSTALLATION SERVICES FOR
ST-PIP’S JACKET AND ITS APPURTENANCES
SCOPE OF WORK:
T&I
SCOPE
JACKET weight 2378 Ton
with launching method.
4 Piles OD 1829mm
Total weight is 1567 Tons
03 conductors OD 762mm
Total weight is 270 Tons
01 Drilling deck
Weight 22ton
3. 3
MILESTONE COMPLETION OF T&I SERVICES FOR ST-PIP’S JACKET AND ITS
APPURTENANCES
STT Description
Key Milestone
Sub Contract
Actual
Milestone
01-01 Effective Date 27 Apr 2015 27 Apr 2015
01-04a
MCD of ST-PIP’s Jacket and its
appurtenance
15 Aug 2015 15 Aug 2015
02-07 ST-PIP’s Jacket ready for Sail-away 31 Aug 2015 03 Sep 2015
02-08
Mobilization at Offshore Site of
installation Spread
05 Sep 2015 04 Sep 2015
02-09
Complete piling and Conductors
installation for ST-PIP’s Jacket
29 Sep 2015 01 Oct 2015
02-10 Handover of ST-PIP Jacket 30 Sep 2015 3 Oct 2015
TRANSPOTATION AND INSTALLATION SERVICES FOR
ST-PIP’S JACKET AND ITS APPURTENANCES
MILESTONE COMPLETION: