Welcome to Wenverter, where innovation meets sustainability at the cutting edge of climate technology. We’re redefining the future with groundbreaking solutions to two of the industry’s most persistent challenges. First, we’re enabling the continuous production of green ammonia using intermittent renewable resources, matching the cost of fossil ammonia. Second, we're transforming ocean wave energy into electricity with the same efficiency as offshore wind power. While these challenges have eluded effective solutions until now, Wenverter is emerging as a leader in both arenas by offering robust, unique and patented solutions.

1. Green ammonia is synthesized using renewable electricity to power the Haber-Bosch process, combining green hydrogen from electrolysis and nitrogen extracted from atmospheric air, both powered by renewable energy sources. The primary cost driver for green ammonia is the expense of green hydrogen, which constitutes over 90% of total production costs. In contrast, nitrogen purification and the Haber-Bosch process contribute minimally to overall expenses.

   To reduce the projected cost of green ammonia, optimizing two key factors is crucial: electrolyzer efficiency and facility capacity factor. Currently, many green ammonia initiatives utilize low-temperature electrolyzers despite their lower efficiency compared to high-temperature models. The challenge lies in maintaining continuous high-temperature electrolyzer operation with intermittent renewable energy sources, which, in addition, affect the facility’s capacity factor.

   This challenge has been effectively addressed by Wenverter, whose patented technologies have secured its position as a leader in the field, blocking even major energy corporations from similar innovations.

2. Ocean waves function as a "natural battery system," capturing wind energy and transmitting it over very long distances with negligible losses. The key advantage of wave energy is the ability of wave-trains, generated by diverse wind flows at different ocean locations, to continue traveling even after the winds have subsided. This prolonged energy transfer makes wave energy more suitable for base-load power production compared to wind energy, which is dependent on current wind conditions. Additionally, the predictability of wave-trains approaching a converter surpasses that of wind events reaching a turbine, making wave energy a valuable resource for grid planning. Furthermore, wave energy converters are less visually intrusive than wind turbines, offering a more aesthetically appealing option for a renewable energy installation. As advancements continue in the development of more efficient wave energy converters, wave energy is poised to become the preferred option over wind turbines for coastal communities.

   Converting wave energy into usable electricity has been a significant engineering challenge, but at Wenverter, we have successfully “unlocked” wave power and can provide grid electricity on par with offshore wind. Our unique power take-off systems effectively control the chaotic nature of waves, enabling forceful rotations similar to wind turbines.

   What differentiates Wenverter is our extensive lineup of groundbreaking wave energy converters designed for diverse applications. Our portfolio includes nearshore, offshore, submerged, floating, and wave/solar hybrid converters, serving small island microgrids, blue economy installations, and utility grids in densely populated coastal communities. These versatile devices are capable of meeting the unique energy requirements of different environments and scenarios, whether deployed independently or in co-location with offshore wind parks.

At Wenverter, we take pride in our innovations, subject matter expertise and highly effective consulting services that assist our clients in navigating cutting-edge technologies and developing robust clean energy transition strategies. Our collaborations with esteemed organizations further demonstrate our commitment to excellence.

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