Energy For Sustainable Development (E4SD) is an innovative start-up founded by a team of Senior Managers, with experience in important multinational companies (ENI,ABB, GE, Alstom, DeNora, Tozzi etc). It operates in the sectors of Green Economy (renewable energy, waste and water treatment, food conservation etc) and Circular Economy (smart agriculture, smart building, artificial intelligence, acqua culture, fish conservation, ecotourism), with its own circular economy solutions (also with its own patents). It works as a Business Developer and as a Builder (E.P.C.) of his own plant engineering solutions in line with the client's requests both in developing and industrialized countries. E4SD develops also R&D activities in cooperation with Universities and Research Centres. E4SD is also a FAO Partners for sustainable initiatives in remote areas ( costal areas, mountains, rural, isles).
Project TRL: TRL 4 - Component validation in laboratory environment
Main sector: Ocean pollution & water management
Monitorization, mitigation and valorization of macroalgae blooms
Project TRL: TRL 3 - Analytical and experimental critical function and/or characteristic proof-of-concept
Main sector: Ocean pollution & water management
We design innovative solutions in the nautical wor
Project TRL: TRL 9 - Actual system proven through successful mission operations
Main sector: Shipping & ports
we are working on regenerating to oceans.
Project TRL: TRL 6 - System/subsystem model or prototype demonstration in a relevant environment
Main sector: Blue biotechnology
EWD is a highly innovative deep-tech start-up. We harness the power of the waves for clean energy production leading to the sustainable development of mankind. EWD’s mission is to develop and commercialise affordable, innovative, easily installable, reliable, and long-lasting products that facilitate our transition to a sustainable future through achieving the relevant UN SDGs. EWD’s wave energy converter (WEC) (patent pending) is adaptable to a number of industries and sectors. Our current projects focus on those areas in most urgent need of effective solutions. One such project is Neptune, a WEC system for use on vessels and in ports. Neptune is a cost effective WEC propulsion and energy management system which can be retrofitted onto existing vessels with no need for dry-docking. Neptune Port provides port shore power tools with a clean and renewable energy supply.
Project TRL: TRL 4 - Component validation in laboratory environment
Main sector: Blue renewable energy
Eco Wave Power is a leading onshore wave energy technology company that developed a patented, smart, and cost-efficient technology for turning ocean and sea waves into green electricity. Eco Wave Power’s mission is to assist in the fight against climate change by enabling commercial power production from the ocean and sea waves.
The Company has finalized the construction of its grid-connected project in Israel. This project involves the installation and operation of a 100-kW installed capacity station at the Jaffa Port in Israel through a Joint Venture Agreement with EDF Renewables IL, a subsidiary of the French multinational electric utility company Électricité de France S.A. EWP also received co-funding from the Israeli Ministry of Energy, which recognized the technology as a “pioneering technology.” With the FIT in place, the Israeli Electric Authority commenced operations to officially connect the EWP-EDF One project to Israel’s energy grid. As of August 15th, 2023, the station officially connected to Israel’s national electrical grid – making it the first wave energy project to deliver electricity to the country’s power supply.
Moreover, Eco Wave Power will soon commence the installation of its newest pilot in AltaSea’s premises in the Port of Los Angeles. Following an agreement between AltaSea and Eco Wave Power, EWP delivered an energy conversion unit to the AltaSea campus at the Port of Los Angeles. EWP is in the process of receiving the final approval for the installation of the 100-kW station in AltaSea’s premises in the Port of Los Angeles in the upcoming months. Eco Wave Power has shipped the conversion unit with 1 sample floater and expects to manufacture an additional 7 new floaters and floater mechanisms for this project.
In addition, the company entered into a Concession Agreement with the Port of Leixões, or APDL, to use an area potentially suitable for the construction, operation, and maintenance of a wave energy power station of up to 20 MW in four locations owned and operated by APDL. Pursuant to the Concession Agreement, APDL will provide EWP with a concession for its breakwaters for a period ranging from 25 to 30 years. The power station is planned to be constructed and commissioned in several stages, starting with a 1 MW station and, subject to certain conditions, to be followed by the construction, operation, and maintenance of the remaining 19 MW capacity of the station. In October 2023, Eco Wave Power received the last approval necessary for the commencement of the works of the first megawatt in the city of Porto from APDL. Eco Wave Power is currently setting up the execution bond for the project, to officially receive the final license. The next steps will include finalizing detailed construction plans for the first 1 MW power station, obtaining approval from relevant entities for the detailed construction plans, and then commencing actual construction, which is expected to take up to 24 months. This is expected to be Eco Wave Power’s first MW-scale project, which will position Eco Wave Power as a leading wave energy developer and serve as a significant milestone towards the commercialization of wave energy globally.
The Company also holds concession agreements for commercial installations in Europe and has a total project pipeline of 404.7MW.
Eco Wave Power received funding from the European Union Regional Development Fund, Innovate UK, and the European Commission’s Horizon 2020 framework program. The Company has also received the “Global Climate Action Award” from the United Nations.
Eco Wave Power’s American Depositary Shares (WAVE) are traded on the Nasdaq Capital Market.
Project TRL: TRL 7 - System prototype demonstration in a relevant environment
Main sector: Blue renewable energy
Wind-assisted ship propulsion system.
Project TRL: TRL 6 - System/subsystem model or prototype demonstration in a relevant environment
Main sector: Blue renewable energy
Project TRL: TRL 7 - System prototype demonstration in a relevant environment
Main sector: Coastal and environmental protection and regeneration
Plastic cleaning-up for seas, coastals and rivers areas including microplastics remediation.
Project TRL: TRL 6 - System/subsystem model or prototype demonstration in a relevant environment
Main sector: Ocean pollution & water management
On-going internal development to scale our technology to a 1MW tidal device.
Project TRL: TRL 5 - Component validation in relevant environment
Main sector: Blue renewable energy
Yacht Work List (YWL) is a SaaS online backoffice & App software that helps Superyacht owners (more than 20 meters length) to manage their job listings efficiently in an ERP system in the cloud, to which all their representatives, including management companies, have access and in which they can share relevant information with shipyards to improve information flow.
Yacht Work List has born from the sailing, management and IT experience and expertise with the clear picture of improving the Yacht Work List management, from the first stages of each Work Order to the most complex refit, sharing the information with the key stakeholders and optimizing the Team Communication.
Whether from aboard or the office, a fixed computer or a mobile device, at the airport or in the shipyard, YWL allows users to work online and more efficiently without losing sight of the main objective, to obtain an unified real picture of critical information, updated to the minute throughout the organization.
Project TRL: TRL 9 - Actual system proven through successful mission operations
Main sector: Shipping & ports
EIRAVATO is a Big Data and AI platform that valorises waste thanks to our certified in-house waste classification. With understanding of the value of waste, organizations can capture materials and find new partners via EIRAVATO Exchange. With materials captured EIRAVATO BLOCKCHAIN tracks materials providing unbeaten transparency and traceability, while access to live data help companies to build evidence packs to support Zero Waste to Landfill or Closed Loop certification.
Project TRL: TRL 8 - Actual system completed through test and demonstration
Main sector: Ocean pollution & water management
Excess Engineering has developed an eco-friendly electric actuator that replaces heavy-duty hydraulic systems, providing a highly efficient all-electric system to push, pull, and lift. The electric system offers a hydraulic-free option with improved energy efficiency, improved precision and control and remote monitoring of load, operation, maintenance, and health. Its size is comparable to existing hydraulic systems, which eliminates the need for significant modifications to the system's structure.
Project TRL: TRL 7 - System prototype demonstration in a relevant environment
Main sector: Aquaculture
Increase the safety of marine navigation
Project TRL: TRL 5 - Component validation in relevant environment
Main sector: Shipping & ports
ELOXIRAS® is an innovative process for the treatment and reuse of marine and brackish water. It is developed to enhance the productivity and to reduce the environmental impact of recirculating aquaculture systems (RAS).
Based on the electrochemical oxidation technology, it only requires an electrical potential between two electrodes in water.
High removal rates of contaminants are achieved, such as total ammonia nitrogen (TAN), nitrite and dissolved organic matter, together with high disinfectant efficacy.
Main features:
- High efficacy. Removal of high concern pollutants, even bacteria and viruses, contributing to increase RAS capacity and productivity in a cost-effective way.
- Reduced environmental impact. The impact of the RAS system is minimized due to lower water exchange requirements with the surrounding media.
- Efficient energy process. Adaptable to optimize energy through a fine tune-up of the treatment intensity to the daily change of the pollutant production rate.
- Compact design. Allowing to save investment costs and to maximize the integration possibilities (logistic applications in trucks and well-boats).
- Easy automatization. Possibility of including a control system with remote alert procedures and supervision of the system condition and operation.
- Easy to operate. Allowing to reach 100% of performance without start-up and adapting periods typical of the biological systems.
- Modular and easy to scale-up. Allowing to increase treatment capacity with the maximum simplicity and the minimum investment cost.
- Safe process. High safety for the farmed species, ideal for isolated applications as quarantine and bio-security.
Project TRL: TRL 8 - Actual system completed through test and demonstration
Main sector: Aquaculture
ELWAVE develops, manufacture and commercializes innovative biomimetics underwater sensors based on its proprietary CEDAR (Controlled-Electric Detection And Ranging) technology.
Project TRL: TRL 8 - Actual system completed through test and demonstration
Main sector: Blue tech and ocean observation
Leading tidal energy project.
Project TRL: TRL 8 - Actual system completed through test and demonstration
Main sector: Blue renewable energy
Our top-line product is a modular system consisting out of an energy production container a technical container. For the floating option (ports, bays, marinas, rivers & lakes) a pontoon expansion pack is available. The energy production container holds 6 synchronized vertical wind turbines and 96m of PV solar panel array. Installed wind capacity: 18Kwh, installed solar capacity: 18Kwh.
Tech container holds the battery storage: 48Kwh. Energy production about 200-300KWh depending on local wind & solar. When equipped with a desalination system for drinking water: production of 30 000L/day. 2 Full-scale demonstrators can be visited.
Project TRL: TRL 8 - Actual system completed through test and demonstration
Main sector: Blue renewable energy
We provide a technological platform, based on Augmented Reality and Artificial Intelligence, that allows scientists to better monitor the marine environment and train new technicians, and tourist operators to create immersive experiences to be offered to their clients
Project TRL: TRL 5 - Component validation in relevant environment
Main sector: Blue tech and ocean observation
We create a new 3G bioplastics resin using seaweed. We are supported by the EIB and the French government. A pilot plant is already working and we are looking for a scale up and funding of the scale up. Our technology will be licenced in the South East of the world.
Project TRL: TRL 9 - Actual system proven through successful mission operations
Main sector: Blue biotechnology