GTS (Gulf Technologies Systems) is an Israeli company that specializes in integrating Israeli high-tech technologies, countries, and government bodies in the GCC, in light of the new peace agreement and the normalization of relations between the countries.
The founder of GTS, Samuel Shay, also heads the Israel-United Arab Emirates Business Forum, whose main goal is to turn the warm political relations between the countries into business ties between GCC and Israelis.
GTS provides creative ideas, the most advanced technologies in the world, and the best minds that have conceived them.
The leading technology company also provides training to locals who can operate the projects, while reducing dependence on foreign workers
GTS currently operates on full-scale cooperation between Israel, GCC’s and African countries for full tripartite activity between the countries.
In April 2007, a fish farm was established in India to promote aquaculture and support the local community. The farm aimed to provide a sustainable source of fish for consumption and generate employment opportunities in the region. By utilizing modern farming techniques and focusing on species well-suited to the local environment, the project sought to boost the local economy and improve the livelihoods of those involved in the fishing industry. The establishment of this fish farm in India represented a step towards the development of a more sustainable and efficient aquaculture sector in the country.
In 2020, the Dalton Industrial Park in Israel began the development of a solar farm to promote renewable energy and reduce reliance on fossil fuels. The solar farm project aimed to harness the abundant sunlight in the region to generate clean electricity. By installing photovoltaic panels across the industrial park, the initiative sought to provide a sustainable energy source for the businesses operating within the area. The Dalton Industrial Park solar farm represented a significant step towards Israel’s goal of increasing its renewable energy production and reducing its carbon footprint. The project showcased the potential for industrial areas to adopt green energy solutions and contribute to the nation’s transition towards a more sustainable future.
In 2021, a 150 kW rooftop solar farm was installed at Har Tov, a location in Israel, as part of the country’s efforts to promote renewable energy and reduce greenhouse gas emissions. The project involved the installation of photovoltaic panels on the rooftops of buildings at Har Tov, allowing them to generate clean electricity from solar power. By harnessing the abundant sunlight in the region, the 150 kW solar farm aimed to provide a sustainable energy source for the buildings and reduce their reliance on the grid. This initiative demonstrated the potential for rooftop solar installations to contribute to Israel’s renewable energy goals and highlighted the importance of utilizing available spaces, such as rooftops, for clean energy production. The Har Tov rooftop solar farm served as an example of how small-scale renewable energy projects can collectively make a significant impact in the transition towards a greener future.
In 2020, a 106 kW solar farm was established in Bet Izhak, Israel, as part of the nation’s ongoing efforts to increase its renewable energy production. The project involved the installation of photovoltaic panels in an open area within Bet Izhak, allowing for the generation of clean electricity from solar power. By harnessing the abundant sunlight in the region, the 106 kW solar farm aimed to provide a sustainable energy source for the local community and contribute to Israel’s goal of reducing its reliance on fossil fuels. This initiative showcased the potential for small-scale solar farms to be developed in various locations across the country, utilizing available land to produce clean energy. The Bet Izhak solar farm served as an example of how distributed renewable energy projects can play a crucial role in Israel’s transition towards a more sustainable future, while also supporting local communities and reducing greenhouse gas emissions.
In recent years, Nigeria has been making strides towards developing its solar energy sector to address the country’s energy deficit and promote sustainable development. One notable project is the construction of a large-scale solar farm in the northern state of Kaduna. The solar farm, which began construction in 2021, is expected to have a capacity of 200 MW upon completion, making it one of the largest solar farms in Africa. The project aims to provide clean, reliable, and affordable electricity to the local population, while also contributing to Nigeria’s goal of increasing its renewable energy mix. By harnessing the abundant solar resources in the region, the Kaduna solar farm is expected to reduce Nigeria’s reliance on fossil fuels, create jobs, and stimulate economic growth in the area. This project serves as a significant milestone in Nigeria’s journey towards a more sustainable and energy-secure future, showcasing the potential for large-scale solar energy development in the country.
In 2017, China unveiled a massive fully climate-controlled greenhouse spanning 17,000 square meters. The state-of-the-art facility was designed to provide optimal growing conditions for a wide variety of crops, regardless of the external weather conditions. By precisely regulating temperature, humidity, light, and other environmental factors, the greenhouse enabled year-round cultivation of high-quality produce. The construction of this greenhouse showcased China’s commitment to advancing its agricultural technology and ensuring food security for its large population. The climate-controlled environment not only allowed for increased crop yields but also reduced the need for pesticides and herbicides, promoting more sustainable farming practices. Moreover, the greenhouse served as a research and development hub, allowing scientists to study and innovate new methods for efficient and environmentally friendly agriculture. The 17,000-square-meter fully climate-controlled greenhouse in China represented a significant step forward in the country’s efforts to modernize its agricultural sector and address the challenges posed by climate change and a growing population.
In 2014, China constructed a fully climate-controlled hydroponic greenhouse, marking a significant milestone in the country’s pursuit of advanced agricultural technologies. The greenhouse employed a soilless cultivation method, where plants were grown in nutrient-rich water solutions, allowing for precise control over the crops’ nutritional intake. By combining hydroponics with a climate-controlled environment, the facility optimized growth conditions, enabling higher yields and quality produce while minimizing the use of land, water, and pesticides. The construction of this greenhouse aligned with China’s efforts to modernize its agricultural sector, improve food security, and promote sustainable farming practices. The controlled environment allowed for year-round cultivation, reducing the impact of seasonal weather fluctuations and ensuring a consistent supply of fresh produce. Furthermore, the hydroponic greenhouse served as a platform for research and innovation, fostering the development of new techniques and technologies that could be applied to other agricultural projects across the country. China’s fully climate-controlled hydroponic greenhouse, built in 2014, showcased the nation’s commitment to leveraging cutting-edge technologies to address the challenges of feeding its growing population in an efficient and environmentally friendly manner.
In 2009, a fully operational fish farm was established off the coast of Tanzania, marking a significant development in the country’s aquaculture industry. The sea-based farm aimed to capitalize on the rich marine resources of the Indian Ocean while providing a sustainable source of seafood for both local consumption and export. By utilizing modern aquaculture techniques, such as floating cages and advanced feeding systems, the farm sought to maximize production efficiency and minimize its environmental impact. The fish farm focused on the cultivation of high-value species well-suited to the local conditions, such as milkfish and grouper. The establishment of this sea-based fish farm in Tanzania not only contributed to the nation’s food security but also created employment opportunities for the local community, stimulating economic growth in the coastal region. Moreover, the project served as a model for sustainable marine aquaculture practices in East Africa, demonstrating the potential for responsible fish farming to support livelihoods and meet the growing demand for seafood. The fully operational fish farm on the sea in Tanzania, built in 2009, represented a significant step towards the development of a thriving and sustainable aquaculture sector in the country.
In 2016, a state-of-the-art water treatment facility was established in India to address the country’s growing water scarcity and water quality challenges. The fully operational plant was designed to treat and purify water from various sources, such as rivers, lakes, and groundwater, to provide clean drinking water for the local population. Equipped with advanced filtration systems, reverse osmosis technology, and disinfection processes, the facility ensured that the treated water met stringent quality standards for safe consumption. The construction of this water treatment plant aligned with India’s efforts to improve access to clean water, particularly in urban areas where rapid population growth had put a strain on existing water infrastructure. By employing modern water treatment technologies, the facility not only enhanced the reliability and safety of the water supply but also reduced the burden on groundwater resources. The plant’s operation also created job opportunities for skilled technicians and contributed to the local economy. The establishment of this fully operational water treatment facility in India in 2016 represented a significant step towards addressing the nation’s water challenges and improving the quality of life for its citizens through access to clean, safe drinking water.
In 2018, a fully operational greenhouse spanning 20 acres was constructed in Vietnam, showcasing the country’s commitment to advancing its agricultural sector and promoting sustainable farming practices. The state-of-the-art facility was designed to provide optimal growing conditions for a wide range of crops, including vegetables, fruits, and flowers. By employing modern greenhouse technologies, such as climate control systems, automated irrigation, and nutrient management, the Vietnam Greenhouse ensured consistent and high-quality crop production throughout the year. The controlled environment allowed for the cultivation of crops that may not have been suitable for the local climate, thus expanding the variety of produce available. The 20-acre greenhouse not only contributed to Vietnam’s food security but also created employment opportunities for the local community and stimulated economic growth in the region. Moreover, the facility served as a hub for agricultural research and innovation, fostering the development of new techniques and technologies that could be applied to other agricultural projects across the country. The fully operational Vietnam Greenhouse, built in 2018, represented a significant milestone in the nation’s efforts to modernize its agricultural sector, increase crop yields, and promote sustainable farming practices.
In 2020, a fully operational greenhouse was established in Mexico, reflecting the country’s ongoing efforts to modernize its agricultural sector and boost crop production. The state-of-the-art facility was designed to provide an optimized growing environment for various crops, leveraging advanced greenhouse technologies to ensure consistent and high-quality yields. By carefully controlling factors such as temperature, humidity, light, and irrigation, the Mexico Greenhouse enabled year-round cultivation, minimizing the impact of external weather conditions. The controlled environment not only allowed for the production of crops that may not have been suitable for the local climate but also reduced the need for pesticides and herbicides, promoting more sustainable farming practices. The establishment of this greenhouse aligned with Mexico’s goals of enhancing food security, creating employment opportunities, and stimulating economic growth in the agricultural sector. Furthermore, the facility served as a platform for research and development, encouraging the adoption of innovative techniques and technologies that could be replicated in other agricultural projects across the country. The fully operational Mexico Greenhouse, built in 2020, represented a significant step forward in the nation’s pursuit of a more efficient, sustainable, and productive agricultural industry.
In 2010, a fully operational hydroponic farm was established in Poland, marking a significant milestone in the country’s adoption of innovative agricultural technologies. The farm utilized a soilless cultivation method, where plants were grown in nutrient-rich water solutions, allowing for precise control over the crops’ nutritional intake and growing conditions. By employing advanced hydroponic systems, the facility optimized resource utilization, minimizing water and land usage while maximizing crop yields and quality. The controlled environment enabled year-round production, reducing the impact of seasonal weather fluctuations and ensuring a consistent supply of fresh produce. The establishment of this hydroponic farm aligned with Poland’s efforts to modernize its agricultural sector, increase food security, and promote sustainable farming practices. The facility not only contributed to the local economy by creating employment opportunities but also served as a model for other hydroponic projects in the region. Moreover, the farm acted as a hub for research and development, fostering innovation and knowledge sharing within the agricultural community. The fully operational hydroponic farm in Poland, built in 2010, showcased the country’s commitment to embracing cutting-edge technologies to address the challenges of sustainable food production and support the growth of its agricultural industry.
In 2018, a fully operational tomato farm was established in Qatar, showcasing the country’s commitment to developing its agricultural sector and achieving greater food security. The state-of-the-art facility was designed to optimize tomato production using advanced greenhouse technologies, such as climate control systems, hydroponics, and automated irrigation. By creating an ideal growing environment, the Qatar Tomato Farm enabled year-round cultivation of high-quality tomatoes, reducing the country’s reliance on imported produce. The controlled conditions allowed for the growth of tomatoes that would otherwise be unsuitable for the local desert climate, thus expanding the availability of fresh, locally grown produce. The establishment of this farm not only contributed to Qatar’s goal of food self-sufficiency but also created employment opportunities and stimulated economic growth in the agricultural sector. Furthermore, the facility served as a model for sustainable farming practices, demonstrating efficient resource utilization and reduced environmental impact in a challenging climate. The fully operational Qatar Tomato Farm, built in 2018, represented a significant step forward in the country’s efforts to strengthen its agricultural capabilities, promote sustainable food production, and enhance the resilience of its food supply chain.
In 2018, a fully operational hydroponic farm was established in Vietnam, marking a significant milestone in the country’s adoption of innovative agricultural technologies. The farm employed a soilless cultivation method, where plants were grown in nutrient-rich water solutions, allowing for precise control over the crops’ nutritional intake and growing conditions. By utilizing advanced hydroponic systems, the Vietnam Hydroponic Farm optimized resource utilization, minimizing water and land usage while maximizing crop yields and quality. The controlled environment enabled year-round production of various high-value crops, such as leafy greens, herbs, and vegetables, reducing the impact of seasonal weather fluctuations and ensuring a consistent supply of fresh produce.
The establishment of this hydroponic farm aligned with Vietnam’s efforts to modernize its agricultural sector, increase food security, and promote sustainable farming practices. The facility not only contributed to the local economy by creating employment opportunities but also served as a model for other hydroponic projects in the region. Moreover, the farm acted as a hub for research and development, fostering innovation and knowledge sharing within the agricultural community.
The fully operational Vietnam Hydroponic Farm, built in 2018, showcased the country’s commitment to embracing cutting-edge technologies to address the challenges of sustainable food production, support the growth of its agricultural industry, and improve the livelihoods of farmers in the region.
In 2016, Chile witnessed the construction of a groundbreaking fully operational desert super-sized green bifacial power plant. This innovative project aimed to harness the abundant solar energy available in the country’s vast desert regions while minimizing the environmental impact of power generation. The bifacial solar panels used in the power plant were designed to capture sunlight from both sides, increasing energy production efficiency compared to traditional monofacial panels. By utilizing the desert’s expansive land area and intense solar radiation, the power plant could generate substantial amounts of clean, renewable energy.
The establishment of this super-sized green bifacial power plant aligned with Chile’s commitment to reducing its reliance on fossil fuels and promoting sustainable energy solutions. The project not only contributed to the country’s renewable energy targets but also created employment opportunities and stimulated economic growth in the region. Moreover, the power plant served as a model for large-scale solar energy projects in desert environments, demonstrating the feasibility and potential of harnessing the sun’s power in challenging landscapes.
The fully operational desert super-sized green bifacial power plant in Chile, built in 2016, represented a significant milestone in the country’s transition towards a cleaner, more sustainable energy future. It showcased the nation’s dedication to leveraging its natural resources and embracing cutting-edge technologies to address the global challenge of climate change while meeting its growing energy demands.
In recent years, Israel has made significant strides in developing its renewable energy sector, with a notable example being the establishment of a fully operational 100 MW power station. The state-of-the-art facility was designed to generate clean electricity using advanced technologies, contributing to the country’s goal of reducing its reliance on fossil fuels and promoting sustainable energy solutions.
The 100 MW power station, one of the largest of its kind in Israel, harnessed renewable energy sources such as solar, wind, or natural gas to produce electricity with minimal environmental impact. By employing cutting-edge power generation and distribution technologies, the facility ensured efficient and reliable energy supply to the surrounding region.
In recent years, Israel has made significant progress in developing its solar energy sector, with the Anelit Solar Farm serving as a prime example of the country’s commitment to renewable energy. The fully operational solar farm, located in the southern region of Israel, was established to harness the abundant sunlight in the area and generate clean electricity.
Spanning across a vast area, the Anelit Solar Farm utilizes state-of-the-art photovoltaic panels to convert solar energy into electricity. The farm’s advanced design and technology ensure optimal energy production, maximizing the efficiency of the solar panels and minimizing energy losses. By leveraging the region’s high solar radiation levels, the Anelit Solar Farm contributes significantly to Israel’s renewable energy mix.
The Doral 100 MW solar farm is a significant renewable energy project located in Israel. Developed by Doral Energy, a leading Israeli renewable energy company, the solar farm aims to contribute substantially to the country’s goal of increasing its clean energy production and reducing its dependence on fossil fuels.
Situated in the southern region of Israel, the Doral 100 MW solar farm spans across a vast area, harnessing the abundant solar radiation in the region. The farm utilizes advanced photovoltaic technology, with thousands of solar panels efficiently converting sunlight into electricity. The state-of-the-art design and technology employed in the project ensure optimal energy production and minimize energy losses.
In 2022, a state-of-the-art saltwater fish farm was established, showcasing the latest advancements in aquaculture technology and sustainable seafood production. The fish farm was designed to meet the growing global demand for high-quality, responsibly sourced seafood while minimizing the environmental impact of traditional fishing practices.
The saltwater fish farm utilized innovative land-based aquaculture systems, which allowed for the controlled cultivation of various marine species in a closed, recirculating environment. By carefully regulating water quality, temperature, and nutrition, the farm optimized the growth and health of the fish, ensuring a consistent supply of premium seafood.
These are technologies which provide us with food substitutes, such as egg and meat substitutes. They can also help us develop healthy food for the long term, in ways of food “manufacturing”, in order to provide solutions to underprivileged populations.
In Israel, an industrial park has taken a significant step towards sustainability by establishing a 42 KW solar farm on its premises. This initiative demonstrates the growing trend of integrating renewable energy solutions into industrial and commercial settings, aligning with Israel’s national goals of reducing greenhouse gas emissions and promoting clean energy.
The 42 KW solar farm, installed within the industrial park, harnesses the abundant solar radiation in the region to generate clean electricity. The solar panels, strategically placed on rooftops or unused land areas, convert sunlight into usable energy, which is then fed into the industrial park’s electrical grid. This on-site generation of renewable energy helps to offset the park’s reliance on fossil fuel-based electricity, reducing its carbon footprint and operational costs.
In 2015, India witnessed the establishment of a pioneering hydroponic green farm, marking a significant milestone in the country’s adoption of innovative and sustainable agricultural practices. Hydroponics is a method of growing plants without soil, using nutrient-rich water solutions to provide the necessary sustenance for plant growth. The hydroponic green farm in India aimed to showcase the potential of this technology in addressing the challenges faced by traditional agriculture, such as land and water scarcity, soil degradation, and climate change.
The hydroponic green farm was designed to optimize resource efficiency and crop productivity. By using controlled environment agriculture (CEA) techniques, the farm could grow a wide variety of high-value crops, such as leafy greens, herbs, and vegetables, year-round. The carefully regulated growing conditions, including temperature, humidity, light, and nutrient levels, ensured optimal plant growth and quality, while minimizing the risk of pests and diseases.
In Israel, Enrgiks, a leading renewable energy company, has established a 5 MW solar farm, contributing to the country’s growing portfolio of clean energy projects. The Enrgiks 5 MW solar farm represents a significant step towards Israel’s goal of increasing the share of renewable energy in its electricity mix and reducing its reliance on fossil fuels.
Located in a strategically chosen area with high solar radiation levels, the Enrgiks 5 MW solar farm harnesses the power of the sun to generate clean electricity. The farm utilizes state-of-the-art photovoltaic (PV) panels, which convert sunlight directly into electrical energy. The PV panels are mounted on fixed or tracking systems, ensuring optimal exposure to sunlight throughout the day.
Israel, a country known for its innovative agricultural practices, has recently established a state-of-the-art saltwater fish farm. This project aims to address the growing demand for sustainable seafood while leveraging the country’s expertise in aquaculture and water management.
The saltwater fish farm in Israel utilizes advanced land-based aquaculture systems, which allow for the controlled cultivation of marine fish species in a closed, recirculating environment. By carefully regulating water quality, temperature, and nutrition, the farm creates optimal conditions for fish growth and health, ensuring a consistent supply of high-quality seafood.