DEEP unexpectedly surfaces with WAAM 3D Printed Subsea Habitat.

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Introducing DEEP: Revolutionizing Ocean Access and Exploration

In a world where oceans cover more than 70% of the Earth’s surface, it’s surprising how little we actually know about these vast bodies of water. The oceans play a vital role in sustaining life on our planet, influence weather patterns, and are home to countless marine species. Yet, their depths remain largely unexplored and, consequently, poorly understood.

Enter DEEP – an innovative company emerging from stealth mode with a groundbreaking project that will change the way we access and study the oceans. Their mission? To develop technology that enables scientists to not only explore but also live in the depths of the ocean for extended periods of time. And their first creation, the DEEP Sentinel, is set to make waves.

The DEEP Sentinel is a subsea station, the first of its kind to be globally classed by DNV – the world’s leading classification society for underwater technology. What sets it apart from traditional underwater facilities is its construction using primarily WAAM (Wire Arc Additive Manufacturing) metal 3D printing technology. This cutting-edge technique allows for the creation of pressure hulls that are strong, durable, and most importantly, safe for human occupancy.

With the ability to operate at depths of up to 200 meters, the DEEP Sentinel opens up access to the world’s continental shelves and the Epipelagic Zone, otherwise known as the “sunlight zone.” This zone, which extends from the ocean surface to the deepest point at which sunlight reaches, is home to over 90% of marine life. By enabling scientists to immerse themselves in this life-giving environment, DEEP hopes to contribute to our understanding and preservation of the Earth’s most important biome.

The DEEP System, comprised of the Sentinel and a range of submersibles, dive and scientific research equipment, aims to revolutionize underwater exploration. Unlike temporary and fixed-location facilities of the past, DEEP’s habitat is modular, scalable, autonomous, recoverable, re-configurable, and re-deployable. This flexibility allows for greater mobility and adaptability in studying different areas of the ocean, unlocking opportunities for groundbreaking research and discoveries.

Steve Etherton, President, EMEA of DEEP, emphasizes the significance of understanding and preserving the oceans. “The oceans sit at the center of many of the generational challenges the world is facing,” he says. “Through our innovative technology, DEEP will enable scientists to operate at depth for extended periods of time and, in some small way, contribute to our understanding of this life-giving environment.”

Two years of intensive research into manufacturing processes and materials science have brought DEEP to the advanced stage of technical design and production. By harnessing the power of 3D printing, DEEP is pushing the boundaries of what is possible underwater. The company’s commitment to innovation is evident in its dedication to ongoing technical and human performance training and qualification programs through the DEEP Institute. Additionally, their unique underwater R&D test and operations facility, DEEP Campus, ensures continuous improvement and development of their groundbreaking technology.

With DEEP’s revolutionary approach to underwater exploration and their commitment to understanding and preserving this life-sustaining ecosystem, an exciting new chapter in ocean access and research is about to unfold. The possibilities are vast, and the potential for new knowledge and discoveries is limitless. It’s time we delve deeper into the mysteries of our oceans and embrace the opportunities that lie beneath the surface.

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