BYLOR

BYLOR – HPC Project – The Role of RAMS Boards in Elevating Nuclear Construction Safety

Hinkley Point C (HPC) represents a monumental stride in the UK’s energy sector, marking the first nuclear power station construction in over two decades. Situated in Somerset, England, this ambitious project is designed to house two European Pressurized Reactors (EPR), with the capability to supply low-carbon electricity to around 6 million homes. EDF Energy, serving as both client and developer, has entrusted the critical civil engineering works to BYLOR, a joint venture that synergizes the strengths of Bouygues Travaux Publics and Laing O’Rourke.

BYLOR Joint Venture: A Fusion of Expertise

BYLOR is the joint venture partnership between two major construction companies:
— Bouygues Travaux Publics: A French company with extensive experience in civil engineering and nuclear projects.
— Laing O’Rourke: A multinational construction firm from the UK renowned for innovative engineering and construction solutions.
BYLOR’s contract, valued at over £2.8 billion, involves delivering the principal civil engineering works required for the construction of the buildings that will house the two nuclear reactors.

BYLOR embodies the collaboration between Bouygues Travaux Publics, known for its global civil engineering prowess, especially in nuclear projects, and Laing O’Rourke, a UK-based construction giant celebrated for its innovative solutions. Awarded a contract exceeding £2.8 billion, BYLOR’s mission involves the intricate construction processes required for the twin reactors’ buildings, adhering to the nuclear industry’s rigorous standards.

RAMS Boards during HPC Milestone delivery 0.30s and 2.59 s

Goals and Values Driving Success

BYLOR GoalsDescription
DeliveryBYLOR is dedicated to ensuring the safe, timely, and high-quality completion of critical civil engineering structures for the HPC project, in full compliance with rigorous nuclear industry standards.
InnovationLeveraging the renowned capabilities of Laing O’Rourke and Bouygues TP in advanced construction techniques and methodologies, BYLOR creates an environment ripe for process optimization and efficiency improvements at HPC.
CollaborationThe joint venture model underscores the importance of partnership, fostering cooperation and open communication between BYLOR and other entities involved in the HPC project to achieve collective goals.
SustainabilityAligned with the low-carbon objectives of the HPC project, BYLOR emphasizes environmental responsibility, promoting sustainable practices within the construction sector.
BYLOR Goals

RAMS Boards: Enhancing Safety Communication

RAMS Boards serve as centralized points for safety information, risk assessments, and method statements, critical for the daily operations of a construction site, especially one as complex and sensitive as a nuclear power station. These boards are strategically placed throughout the HPC site, ensuring that all workers, regardless of their specific tasks, have easy access to essential safety information, emergency procedures, and project updates.

The benefits of using RAMS Boards in the HPC project include:

BYLOR BenefitsDescription
Increased Visibility of Safety InformationRAMS Boards prominently display crucial safety information, ensuring all team members are constantly aware of safety protocols and risks.
Real-time UpdatesThey facilitate real-time updates to safety procedures and risk assessments, keeping information current and relevant for the dynamic nature of construction projects.
Enhanced AccountabilityBy displaying specific risk assessments and method statements for each task, RAMS Boards promote individual accountability for following safety protocols.
Streamlined CommunicationRAMS Boards centralize safety communications, reducing misunderstandings and ensuring that all team members have access to the same safety information.
Easy Access to Emergency ProceduresThey provide quick and easy access to emergency procedures, helping to ensure a swift response in the event of an incident.
Support for a Safety-first CultureThe use of RAMS Boards supports the development of a safety-first culture, emphasizing the importance of safety in every aspect of the project.
Compliance with RegulationsRAMS Boards help ensure compliance with health and safety regulations by making it easier to share regulatory and compliance information with the workforce.
Continuous Safety TrainingThey act as a constant reminder of safety practices and procedures, contributing to ongoing education and training for all site personnel.
BYLOR Benefits using RAMS Boards

BYLOR’s Commitment to Safety and Sustainability

The integration of RAMS Boards into the HPC project reflects BYLOR’s overarching commitment to safety and sustainability. The joint venture’s approach aligns with the project’s goals of not only delivering a state-of-the-art nuclear facility but doing so in a manner that ensures the well-being of its workforce and minimizes environmental impact. This commitment is evident in BYLOR’s meticulous planning, execution, and constant evaluation of safety practices, with RAMS Boards being a crucial tool in this endeavor.

Conclusion

The role of RAMS Boards in the HPC project by BYLOR exemplifies the joint venture’s innovative approach to managing safety in nuclear construction. These boards are more than just information panels; they are a testament to BYLOR’s dedication to creating a safe, efficient, and sustainable construction environment. As the HPC project progresses, the use of RAMS Boards will continue to be a cornerstone of BYLOR’s strategy to uphold the highest standards of safety, setting a benchmark for future nuclear construction projects globally. For our friends at BYLOR, getting your hands on essential RAMS boards is a piece of cake! All it takes is a quick email from your Quantity Surveyor (QS) with a purchase order (PO) sent off to [email protected]. It’s that easy! This hassle-free method ensures that the crucial RAMS boards, key to keeping your site safe and everyone in the loop, are readily available for all your projects, big or small.