Project Achievements

Continuously contributing innovative value-driven technical concepts and solutions to the global engineering field.

OCB ENGINEERING DESIGN INSTITUTE

Project Name: Wind Turbine Installation Vessel

Construction Location: Yantai City, Shandong Province, China

Project Overview:

The vessel is 176 meters long, with a working water depth of 80 meters and a capacity for 135 personnel.


 It has a net lifting capacity of over 20,000 tons and a deck area of more than 7,000 square meters.


The main hoisting capacity exceeds 3,000 tons, and the crane height is 155 meters, enabling it to install 20-megawatt offshore wind turbines. 


The vessel is classed by DNV (Det Norske Veritas).

Project Name: Russian Nuclear Power Ship

Project Location: Pevek City, Russian Far East

Project Overview:

The total investment for this nuclear power ship is approximately $480 million, with dimensions of 144m in length, 30m in width, and 10m in height, and a displacement of 21,500 tons. 


The ship is equipped with an RITM-200 reactor, with an installed capacity of 106 megawatts, capable of providing clean electricity to polar cities and offshore natural gas and oil drilling platforms. 


OCB primarily participated in and completed the overall production design of the ship.

Deep-Sea Wind Power Aquaculture Floating Platform

Project Location: Nanri Island, Xiuyu District, Putian City, China

Project Overview:

This project utilizes a semi-submersible floating platform to install a 4-megawatt floating offshore wind turbine. 


The platform features a regular hexagon in the center, designated as the aquaculture area, with a water volume of approximately 12,000 cubic meters.


OCB advocates for low-carbon and green engineering concepts and collaborates with partners to create a new model of integrated development for "offshore granaries + blue energy."

Wind Turbine Installation

Project Overview:

Overall dimensions: Length 97.5m × Width 92m × Height 118m, with a capacity for 118 personnel. 


The deck is equipped with one 600-ton crane, one 300-ton crane, and an 8-point mooring system, among other deck machinery.


This project operates in water depths of up to 52 meters and can perform lifting operations for the foundations, towers, nacelles, and blades of offshore wind turbines with capacities of 10 megawatts (or below).


LNGC Natural Gas Electrical Room Project

Project Location: British Columbia, Canada

Project Overview:

The total investment for the LNGC plant project in Canada is CAD 40 billion, with an annual production capacity of 28 million tons, providing stable supply support for global energy needs.


OCB is involved in the detail and production design work for 10 E-HOUSE modules and 18 MINI-FAR modules for this project, which has indirectly assisted JGC in completing the project on schedule. 


This brings the total number of E-HOUSE modules designed by OCB to 55.


PMOS Prefabricated Modular Booster Station (900 MW/220 kV)

Project Location: South Shandong Peninsula

Project Overview:

The PMOS project is the first domestic attempt to utilize a prefabricated modular design for large offshore power transmission equipment. 


This product was jointly developed and designed by OCB and Siemens Energy and has been successfully implemented in the Shandong Peninsula Wind Power Project.

Arctic LNGII PGM Project

Project location: Gydan Peninsula, Russia

Project Overview:

The PGM modules will provide powerful power support for the Arctic LNG2 plant, with each module generating 24,000 kW. 


OCB was involved in the design of four power generation modules and one power distribution module.

Coastal Waste-to-Energy Power Plant

Project Location: Shanghai, China

Project Overview:

This project processes 3,000 tons of municipal waste daily, equipped with four 750-ton per day waste incineration lines and flue gas treatment facilities, along with two 65 MW medium-temperature, sub-high-pressure pure condensing steam turbine generator sets.


The equipment operates for 8,000 hours per year, with an actual peak processing capacity of up to 1,000 tons per day per furnace, currently representing the world's most advanced level in single-furnace processing capacity.

Danan Sea Petrochemical Industrial Zone

Project Location: Jieyang City, China

Project Overview:

This project is part of the Danan Sea Petrochemical Industrial Zone in Jieyang. 


OCB has completed the design work for the water treatment components, including WAR skids, separation skids, solvent skids, and related connection sections.

Russian Linear α-Olefins Production Facility

Project Location: Ust-Kut, Irkutsk, Russia

Project Overview:

Located in Ust-Kut, Irkutsk, Russia, this facility is designed for the production of linear α-olefins. 


The project comprises 6 PAU modules and 5 pump skids, with a total weight of approximately 1,600 tons. 


Due to land transport restrictions in Russia, the final modules will be disassembled into 67 modules for transportation. 


OCB has participated in and completed the layout and modular design work for 2 of the facilities.

Russian LNG II Pipeline Corridor Modules

Project Location: Gydan Peninsula, Russia

Project Overview:

The Russian ALNG II project has an annual LNG production capacity of nearly 20 million tons and will support three liquefaction production lines, scheduled to commence operations and connect to the grid in 2024. 


OCB has participated in and completed the design work for 3 of the modules. 


As a result, the number of major global LNG projects that OCB has been involved in has exceeded 10.

FCC Gasoline Hydrodesulfurization Unit

Project Location: Buenos Aires, Argentina

Project Overview:

This project is part of the modernization and renovation plan for the Buenos Aires Refinery (1.1 million barrels per day), primarily aimed at providing FCC gasoline hydrodesulfurization capabilities for the production line.


OCB has participated in and completed the layout and modular design work for the unit.

Floating Production Storage and Offloading Vessel - PETROBRAS 82 (P-82)

Project Location: Brazil

Project Overview:

The P-82 FPSO is a large floating production storage and offloading vessel commissioned by Petrobras and constructed by TechnipFMC.


It measures 360 meters in length, 60 meters in width, and 34.3 meters in depth, with a designed oil storage capacity of 1.6 million barrels. 


The daily production capacity is 225,000 barrels of oil and 12 million cubic meters of natural gas, featuring advanced technological characteristics and high capacity levels.

 

OCB is responsible for the detailed and production design of the central region of this project.

Floating Liquefied Natural Gas Production, Storage, and Offloading Unit - MARIA QUITÉRIA

Project Location: Brazil

Project Overview:

The Maria Quitéria FPSO project is a significant energy development initiative involving the conversion of an existing Very Large Crude Carrier (VLCC) - the "Eagle" - into a powerful floating liquefied natural gas production, storage, and offloading unit (FPSO). 


This project was completed by Shanghai COSCO Shipping Heavy Industry Co., Ltd. at the dock on Changxing Island in Chongming District. 


The converted FPSO has been named Maria Quitéria and is planned for deployment in offshore oil fields along Brazil's southeastern coast. 


OCB is responsible for the design of the practical module (M20), manifold modules (M01 and M02), and power generation modules (M40 and M41) for this project.

Floating Liquefied Natural Gas Production, Storage, and Offloading Unit - MARIA QUITÉRIA

Project Location: Brazil

Project Overview:

The Maria Quitéria FPSO project is a significant energy development initiative involving the conversion of an existing Very Large Crude Carrier (VLCC) - the "Eagle" - into a powerful floating liquefied natural gas production, storage, and offloading unit (FPSO). 


This project was completed by Shanghai COSCO Shipping Heavy Industry Co., Ltd. at the dock on Changxing Island in Chongming District. 


The converted FPSO has been named Maria Quitéria and is planned for deployment in offshore oil fields along Brazil's southeastern coast. 


OCB is responsible for the specialized production design of three topside modules: the water injection module, gas compression module, and main gas injection compression module.

Floating Production Storage and Offloading Vessel - BM-C-33 FPSO Project

Project Location: Campos Basin, Brazil

Project Overview:

This unit is capable of processing natural gas and oil/condensate, allowing for sales without the need for further onshore processing.


The FPSO has a production capacity of 16 million cubic meters of gas per day, with an expected average daily export of 14 million cubic meters of gas. 


The BM-C-33 FPSO project will utilize combined cycle technology to reduce carbon dioxide intensity, with an anticipated average carbon dioxide intensity of less than 6 kilograms per barrel of oil equivalent over its lifespan. 


OCB is responsible for the detailed design and production design of the bow and topside modules for this project.

Dutch Floating Production, Storage, and Offloading Vessel (Mero 4)

Project Location: Santos Basin, Brazil

Project Overview:

The FPSO "Alexandre de Gusmao" (Mero 4) is one of the key development projects by Petrobras in the Mero oil field. 


It features the advanced Fast4Ward hull design concept, providing strong production and storage capabilities. 


The "Alexandre de Gusmao" employs SBM's proprietary "Universal" Fast4Ward hull design, making it the world's largest tonnage and storage capacity floating production storage unit. 


The hull measures a total length of 333 meters, a width of 60 meters, and a depth of 33 meters, with a displacement of 460,000 tons.

 The implementation of this project will help enhance the oil recovery rate and overall development efficiency of the Mero oil field.


 Additionally, the success of this project reflects SBM Offshore's leading position in FPSO design and construction and the important role of Chinese shipyards in the global oil and gas development sector. 


OCB is responsible for the full professional production design of five topside modules, including the No. 1 separation module (skid + manifold), the carbon dioxide and liquefied petroleum gas compression module, and the VRU and LP gas compression module.

FPSO (Floating Production, Storage, and Offloading Unit) Modification Project - FPSO MARECHAL DUQUE DE CAXIAS (MERO 3 PROJECT)

Project Location: Mero Oil Field, Libra Block Offshore Rio de Janeiro, Brazil

Project Overview:

The Mero 3 FPSO project is the first domestic FPSO modification project to integrate the conversion of the main hull, construction and integration of all modules, and FPSO system commissioning within the same shipyard. 


The original vessel was a 300,000-ton Very Large Crude Carrier (VLCC) registered in Malaysia. 


The converted FPSO has a main hull measuring 341.2 meters in length, 67.2 meters in width, and 29.7 meters in depth, with a total weight of approximately 44,000 tons for the newly added modules and an empty weight exceeding 110,000 tons. 


This FPSO employs a 24-point mooring system, capable of processing 180,000 barrels of crude oil and 12 million cubic meters of natural gas daily, with a storage capacity of up to 1.45 million barrels. 


As a comprehensive "offshore oil processing plant" that integrates production processing, storage and offloading, personnel accommodation, and production command, the Mero 3 FPSO offers a high degree of integration and flexibility in functionality. 


OCB completed the full professional production design for five topside modules, including the automated processing module, level module, and combustion module.

AGOGO Full Field

Project Location: Angola, West Africa

Project Overview:

This project involves the development of the AGOGO Full Field oil field located in Angola, West Africa. 


The aim is to efficiently and safely extract and utilize underground oil resources, thereby increasing oil recovery rates. 


OCB is responsible for the layout and modular design work of the topside and subsea chemical injection skids, methanol chemical injection skids, and methanol chemical injection devices for this project.

Scarborough Floating Production Unit

Project Location: Australia

Project Overview:

This project is a collaboration between Woodside Energy and McDermott International Ltd., aimed at supporting the development of the Scarborough gas field in Western Australia's northern region. 


The unit features a semi-submersible design, offering good stability and load-bearing capacity, enabling it to support large-scale natural gas extraction and production. 


OCB is responsible for the detailed design of the MRU (Motion Reference Unit) and PWT (Production Water Treatment) for this project.

Ok Tedi

Project Location: Papua New Guinea

Project Overview:

This project is a large-scale copper and gold mining operation. 


It has an annual capacity of 24 million tons, with ore extracted from an open-pit mine supplied to a processing facility. 


This facility includes a rotary primary crusher, two parallel grinding modules, flotation, gravity separation, and desulfurization. 


OCB has participated in the design of multiple buildings and functional modules within this project.

Chemical Grade Plant (CGP 3)

Project Location: 25 km south of the Darwin CBD

Project Overview:

The CGP3 project is the largest lithium oxide production facility in the world, comprising a dry crushing and screening plant, a wet processing plant, land conveyors, storage facilities, and non-process infrastructure, with the aim of increasing lithium concentrate production by 2.4 million tons per year. 


OCB has completed the engineering design work for the washing plant module.

Grants Lithium Project

Project Location: Southern Western Australia

Project Overview:

This project involves an open-pit lepidolite-bearing pegmatite deposit. 


The ore will be extracted using drilling and blasting methods and processed using dense media separation to produce higher-grade lithium concentrate. 


The mine is expected to operate for three to four years. OCB has participated in the design work for two of the modules in this project.

Roy Hill Spiral Module

Project Location: Pilbara Region, Australia

Project Overview:

Roy Hill is a major integrated iron ore mining project that has emerged in Australia this year, located in the Pilbara region of Western Australia.


The mineral reserves amount to 2.323 billion tons, with an estimated annual mining capacity of 55 million tons.


OCB has participated in and completed the engineering design work for the washing plant module, marking the company's fifth resource processing module design project.


Qingpu Peace Kindergarten

Project Location: Shanghai

Project Overview:

Shanghai Qingpu Peace Kindergarten is an international bilingual kindergarten.


The architectural style incorporates the school's educational philosophy, blending Chinese and Western cultures, resulting in a unique design infused with various artistic elements.


This project is one of the typical specialty architectural projects undertaken by our company and has received unanimous praise from the client.

Digital High-stability Mooring System For theDeep-sea Floating Platform

Project Overview:

The Chinese government's "14th Five-Year Plan and 2035 Vision Outline" emphasizes the need to cultivate and strengthen the marine engineering equipment industry. 


Currently, marine engineering is expanding into deeper waters, and deep-sea floating devices are set to become the mainstream in the future. 


OCB possesses core key technologies and collaborates with renowned domestic marine engineering experts and scholars to focus on the development of monitoring systems for deep-sea floating platform anchoring equipment. 


This project integrates technologies such as digital IoT, lifecycle early warning monitoring, temporal simulation, and emergency disaster forecasting and analysis with the development and engineering implementation of traditional anchoring systems aiming to create independent intellectual property rights and develop international advanced core deep-sea equipment technology capabilities.


System Description:

High-Tension Anchoring and Mooring System Selection

Capable of designing anchoring systems for deep-sea floating platforms, the system incorporates hydrological survey data and employs hydrodynamic calculations, dynamic analysis of anchoring systems, and various load calculations to determine design selection through temporal coupling analysis of the anchoring system.


Real-Time Monitoring Sensor Equipment

Utilizing sensors and the Internet of Things (IoT) to detect and analyze the anchoring process, position, mooring cable tension, fatigue corrosion, and wear values, achieving real-time monitoring capabilities.


Decision-Making and Early Warning System

Through digital twins and deep learning technology, this system incorporates underlying safety data and risk warning simulation algorithms, providing the owner with remote real-time risk protection and safety assessments prior to potential disasters, ensuring the safe operation of the floating device.


OCB DIGITAL INTELLIGENCE INSTITUTE

Project Name: Digital Twin Community

Located: Chengdu Shanban Bridge

Project Overview:

In 2021, diaital twin technology was utilized to interconnect events, locations, times, individuals, videos and other data within the Chengdu Shanban Bridge community, creating a "community digital twin"that can be inspected, viewed, selected, analvzed, and scheduled.


Comprehensive and real-time aggregation of big data across the entire network, timely understanding and mastery of community operation trends, providing technical support and data basis for community governance, decision-making and deployment. 


At the same time, the community also visualizes and displays unexpected events, such as traffic and fires, achieving efficient aggregation and utilization of social and public opinion information through the network, It provides intuitive presentations of feedback results and allows for a rapid grasp of grassroots situations, thereby improving the information coverage of the community platform.

Project Name: DACS-PointCloud Point Cloud Measurement and Reverse Modeling Software

Project Location: Jiangsu, Libert, China Merchants Shekou, Zhoushan COSCO

Project Overview:

DACS-PointCloud Point Cloud Measurement and Reverse Modeling Software is capable of processing terabyte-scale 3D point cloud data with fast operation speeds, high accuracy, and user-friendly interfaces. 


It is a specialized software suite for point cloud processing, analysis, and reverse modeling. 


After importing the scanned dense 3D point cloud data into this system, users can process the data to perform one-click overall deviation comparisons between point entities and design models, as well as reverse modeling and dynamic/static interference detection, addressing various point cloud scenario issues.

Project Name: Multi-Layer Multi-Pass Welding of Reducer New Workshop Housing

Project Location: Taixing, Taizhou, Jiangsu

Project Overview:

This project utilizes a multi-layer and multi-pass planning approach, employing collision detection to ensure welding quality and efficiency. During the welding process, workpieces are fixed onto the worktable using fixtures, while robots perform multi-layer and multi-pass welds according to generated programs. 


To ensure welding accuracy, the project implements various measures such as temperature control and welding parameter adjustments. The application of these processes enhances the strength and first-time forming effectiveness of the reducer housing. 


Currently, most robots operate with single-layer and single-pass techniques; however, our company can achieve multi-layer and multi-pass operations with robots. 


The welding robots operate continuously without excessive adjustments, which helps reduce the costs associated with robot teaching and allows for the prediction of welding process parameters, thereby improving welding quality.

Project Name: Flexible Welding Production Line

Project Location: Qingdao, Shandong

Project Overview:

We are transforming the traditional discrete shipbuilding model into a more efficient intelligent welding production line shipbuilding model. 


This involves reconfiguring the spatial layout for enterprises, introducing automated welding robots, and utilizing automation and intelligent technologies to achieve continuous and efficient welding production. 


This approach enhances production efficiency, shortens production cycles, and reduces production costs. 


The production line reduces reliance on manual labor, conserves human resources, and minimizes errors and quality issues caused by human factors.

ENGINEERING AND EQUIPMENT

Project Name: Offshore Hydrogen Production Prefabrication

Project Location: Jiangsu

Project Overview:

The electrolytic energy consumption for the offshore hydrogen production project is 5 kWh/Nm³ of H2. 


Our company is responsible for the consultation, design, and manufacturing of this project.

Project Name: Offshore Booster Station Prefabricated Module

Project Location: China

Project Overview:

The PMOS (Prefabricated Modular Offshore Booster Station) is a second-generation prefabricated module developed by Siemens and Hanka. 


This project combines the productization approach seen in European and American engineering, modularizing, prefabricating, standardizing, and productizing the functional rooms of traditional booster stations. 


The project timeline and costs have been reduced by over 25%. 


The design of PMOS is intended for multiple offshore booster stations in China, and the large 220 kV offshore booster station utilizing this design concept has already been successfully delivered. 


Our company has participated in consulting, design, and manufacturing for several projects of this type.

Project Name: FPU for MDA/MBH

Project Location: Indonesia

Project Overview:

E-house - Marine Engineering Module (FPU/FPSO)


The E-house measures 15m x 7.5m x 9.6m. 


The project owner is the Indonesian National Oil Company.


OCB is responsible for consulting, design, on-site services, and system commissioning for this project.


Project Name: Ballast Water Prefabricated Module

Project Overview:

OCB is involved in multiple projects for the modification of ballast water prefabricated modules for vessels, responsible for the consulting, design, and manufacturing aspects of the projects.

COOPERATIVE CLIENTS

Home
About
Business
Contact
回到顶部图片