Developing
Projects in latin america

Countries

Latin America and the Caribbean, home to some of the world’s most pristine and diverse ecosystems, depend heavily on natural resources to generate economic growth

Guatemala & Honduras

The Plastic Island Crisis

The Caribbean coastal areas around the Guatemala–Honduras border, in particular Bahia de Omoa, are suffering from a dramatic crisis of pollution resulting from poor waste management.

Large scale 'floating islands' of plastic debris are in constant motion along these shores

Operating under the auspices of three Ministries of Foreign Affairs (Guatemala, Honduras and Israel), the Cartagena Convention, and within the "Regional Action Plan on Marine Litter Management (RAPMaLi) for the Wider Caribbean Region 2014",  the project will establish a zone of cooperation between Guatemala and Honduras in their common affected zone, and develop a joint holistic Strategic Action Plan to address the environmental crisis.

Click here to view:

https://youtu.be/3CK_inDmuoU

https://theintercept.com/2019/10/27/plastic-pollution-guatemala/

https://youtu.be/6TsSqQaXLmM

Collaboration with:

El Salvador

Establishment of a solar farm at the UNIVO University

The land owned by Univo (125,000 square meters) fits for a 17.7 MW of ground-mounted solar project. We will install 30,272 solar panels with a capacity of 585W each.

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Collaboration with:

El Salvador

Wastewater Treatment

After preliminary research on behalf of the local university, we formulate a plan for wastewater treatment on the university campus.

Collaboration with:

El Salvador

Fish farming Project

Establishment of a fish farm outside of the city of San Miguel in the model of “Satellite Farming” in collaboration with APT. Through this model, the university will achieve commercialization but also student training and research.

Collaboration with:

Panama

The Canal Straw

We are currently in the data collection and laboratory testing phase, to examine two key processes:

  • Anaerobic process for biogas production.
  • Biochar production.

Positive conclusions from the experiments will provide a basis for the establishment of a commercial facility for producing energy from the Saccharum Spontaneum.

Collaboration with:

El Salvador

Agriculture

The University with the assistance of Maof is creating a plan that aims to help local families to set up home greenhouses and use them for private use and local commerce in the community.

Collaboration with:

Dominican Republic

Dam over AMINA river

  • The ‘Dam over Amina river’ initiative will provide drinking water to the country's capital Santo Domingo.
  • It will produce 65MW and will support the effort to expend agriculture and food production in the entire area.
  • In cooperation with LR Group.
  • The project is valued at $350M.

Collaboration with:

Chile

Water & agriculture projects

Addressing drinking water shortages in the center and north of the country

Establishment of a research center for water engineering.

 

An agriculture program in arid zones -  A line of research called "Identification of water sources present in the different ecological floors of the territory, likely to be used for the agricultural sector.

Collaboration with:

Colombia

Water and sanitation project  

Upgrading water and sewage systems in developing rural areas. Supply of continuous water to peripheral areas and sewer installation to deal with the problem of floods during the rainy seasons.

Collaboration with:

Dominican Republic

Waste to Energy facility

Collaboration between Y.A. Maof, Punta Cana Group, Asonahores (Hotel association) and APEC University to build a strategic plan to treat 700 tons of organic waste generated by the Punta Cana tourism sector.  This strategic plan will focus on reducing environmental damage in the area. It will also provide an economic pre-feasibility study of a waste to energy approach.

Rehabilitation of an existing waste site in the Punta Cana area in order to turn it into a regional sanitary landfill.

Two main goals:

  • Advanced treatment for the Hotels MSW.
  • Produce green energy.

Dominican Republic

Fish farm

  • Producing 1,000T sweat water fish for export and for the local market - yearly.
  • Yearly income of $2M
  • Set costs are valued at $10M

Dominican Republic

Establishment of a solar farm

Y.A. Maof is promoting with the Dominican Republic and initiative to establish a solar farm near the city of San Pedro de Macorís. The project that we propose involves a power generation of up to 140MW for 25 years.

This joint effort would constitute the largest renewable energy project in the country. The proposed project would be located on 100 hectares (1,000,000 m2) of land.

Dominican Republic

Punta Cana Eco Industrial Park

We have lunched our scientific field test during last September for our first Biogas facility of the Eco Park – EnergyAlgea Project.

Continued lab tests over the past year have yielded outstanding results: Algae material has proven to be over 200% more efficient in creating energy than our initial assumptions.

This advancement is thanks to a special proprietary pre-treatment process incorporated by the use of special machinery and enzymes. It is an outstanding achievement, and also world-first.

Dominican Republic

Sargassum outbreak crises

Y.A. Maof, as a leader of consortium, wishes to examine the feasibility of promoting biogas facilities in various locations across the affected areas. As a first step, Y.A. Maof plans to place a biogas plant (1.5MW) in Punta Cana, which is based on the digestion of sargassum and MSW.

Besides treating the sargassum issue, the biogas facility would also integrate with the waste value chain and assist the promotion of renewable energies.

Innovative solutions for revitalizing tourism in the Caribbean through turning Sargassum into a resource and upgrading the environmental profile of coastal hotels.

Collaboration with:

Mexico

Quintana Roe– Saragassum outbreak

In the summer of 2018, a large mass of sargassum created an 8,850 km long belt with an estimated weight of more than 20 million tons that stretched from West Africa, crossing the Central Atlantic Ocean through the Caribbean Sea, to the Gulf of Mexico.

The Government of Quintana Roe reported that in 2018, 522,226 tons of sargassum were collected from the coasts and coastal areas, at an investment of 332 million pesos, In addition, researchers from the National Autonomous University of Mexico (UNAM) have warned of major dangers and damage to ecosystems if the problem is not addressed by a true common strategy (Rivera, 2018).

Y.A MAOF will use of algae waste to create biogas to provide green energy for a variety of uses.

Collaboration with:

Peru

Sewage treatment

Construction and upgrade of a sewage treatment plant and establishment of sewage treatment facilities

Universidad Nacuinal de Jaen. Cajamarca - Sewage treatment.

the facility and the oxidation pools are close to the university campus and they suffer greatly from a pungent odor in the area.

In the city of Jaen, there are two sewage treatment plants that are anaerobic and aerobic lagoons where for 18 years they have not performed maintenance work at the level required to treat sewage properly. In addition, the plant is unable to create a solution to the problem because there is excess water.

Collaboration with:

Uruguay

Smart Dairy farm management

Treatment of dairy production effluents to prevent pollution of river water and groundwater

Upgrading existing cow sheds and milking facilities to increase milk yield and profitability. Introduction of Israeli systems for monitoring the health of cows and providing food in accordance with milk yield.

Program for professional courses on dairy cattle raising and dairy production waste management

Collaboration with:

Mexico

Fish farming in Baja California

  • Creating hatchery to grow fingerlings, processing plant to package fillets for market, and fertilizer processing plant for the fish waste and future agricultural waste to be made into fertilizer compost for old and new farms.
  • This project will 100% self sustaining. All electricity will need to be solar or possibly ocean wave generated. Drinking water will come from the desalinated water plant (portables in TEUs type shapes to begin with) and Internet, television, etc to be satellite.

Collaboration with:

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