The advantages of nanotube technology in solar stations
These advantages make nanotube technology an attractive choice for use in solar stations, contributing to the increased efficiency and economic viability of solar energy.
High Efficiency:
Nanotubes have a high capability to convert solar energy into electricity, making them an efficient solution for solar stations.
Improved Performance:
The use of nanotubes allows for increased performance of solar stations by more effectively capturing and utilizing solar energy.
Resilience to Various Conditions: Nanotubes typically exhibit enhanced resistance to various atmospheric conditions, making them a reliable solution for use in solar stations.
Space Saving:
Due to their compactness and efficiency, nanotube technology allows for a reduction in the consumption of land plots for the placement of solar stations.
Durability:
Nanotubes have a high degree of durability and can serve for a long time without significant reduction in performance.
To increase the power from 24% to 28%:
Nanotubes provide a significant advantage by increasing the power of solar stations by 3.5%.
Innovations in solar energy on your roof, at no cost!
4 proprietary 3 GW modern plants - subsidiaries of "Solar, Nanotubes, and Innovation" (Australia) in collaboration with MONBAT Group (Bulgaria) in Estonia, Bulgaria, Georgia, and Kazakhstan will manufacture solar panels with nanotubes, increasing panel efficiency from 24% to 28%.
Testing of the first batch of panels is planned to be conducted in Spain, Slovenia, Kyrgyzstan, and Georgia, in order to install equipment for everyone interested starting from 2026 under the SEG Program. Our productions are open to external scrutiny. Click on the "camera" to investigate.
Testing and control
The Photovoltaic Performance Laboratory (PVPL) in Australia is the only photovoltaic laboratory in the Southern Hemisphere accredited by the National Association of Testing Authorities (NATA) to the IEC17025 technical competency standard. This makes it one of the most accurate laboratories in the world for measuring the efficiency of photovoltaic cells. The PVPL will be conducting analytical measurements and assessments of the nanotube technology developed by the "Solar, Nanotubes, and Innovation" team (Australia) in collaboration with MONBAT Group (2024/2026).
Solar, Nanotubes, and Innovation
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Construction of solar panel manufacturing plants with nanotubes, increasing the panel's power output by up to 3.5% (with a margin of error of up to 10%).
Innovations in solar panels using nanotubes.
The Solar, Nanotubes, and Innovation (Australia) in collaboration with the MONBAT Group (Bulgaria).
With worldwide presence in over 70 countries and more than 20 different applications and industries, Monbat is among the strongest economic groups in the Bulgaria. It is listed on the Premium Equities Segment of the Bulgarian Stock Exchange – Sofia with market capitalization of 92.1 M EUR (as at December 30th 2022).
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Central Warehouse / China/ 72 hours
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Warehouse No. 1 / China/ 72 hours
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Warehouse No. 2 / China/ 72 hours
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Thailand/ 72 hours
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Vietnam/ 72 hours
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Singapore/ 72 hours
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Malaysia/ 72 hours
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Indonesia/ 72 hours
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Philippines/ 72 hours
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India/ 72 hours
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Egypt/ 72 hours
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Israel/ 72 hours
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Spain/ 90 Days
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Slovenia/ 72 hours
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Croatia/ 72 hours
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Bosnia/ 72 hours
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Montenegro/ 72 hours
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Greece/ 72 hours
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Turkey/ 72 hours
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Cyprus/ 72 hours
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Romania/ 72 hours
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Lithuania/ 72 hours
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Belgium/ 72 hours
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Netherlands/ 72 hours
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Finland/ 72 hours
Solar, Nanotubes, and Innovation
GDB Green Port Esty +
GDB Green Technopark
In early 2024, an investment agreement was signed between OÜ Aseri Sadam (Republic of Estonia), SEG Energy Leasing (UK), and GDB Funding Limited (UK) for the construction of the GDB Green Port Esty, a seaport infrastructure project. The port infrastructure will include 7 SIEMENS (46,2 MW) wind turbines as part of the GDB Wind Park (Finland/Estonia), CLASSO warehouses, and a solar panel manufacturing plant named Solar, Nanotubes, and Innovation (Australia) with an annual production capacity of 300 MW. The plant will produce innovative solar panels with a capacity of 680 Watts, incorporating nanotubes from the MONBAT Group. The initial investment volume is £26,670,000. The second investment package can reach up to £400,000,000.
2024/ 2027
Future construction objects, including fully or partially, and with the participation of third parties or other rights:
• Payment for construction works for the formation of an above-ground pier. The area (the sea), filled with the agreed construction material according to the project, measures [525 meters / 760 meters / 125 meters].
• GDB Wind Park (Finland)/ SIEMENS wind park with a capacity of 6.6 MW
• GDB Wind Park (Finland)/ SIEMENS wind park with a capacity of 13.2 MW
• GDB Wind Park (Finland)/ SIEMENS wind park with a capacity of 13.2 MW
• SPPG (Estonia)/ SIEMENS wind park with a capacity of 13.2 MW
• CLASSO Warehouse Complex (Wholesale Warehouses) / 20,000 m2
• CLASSO Warehouse Complex (Low-temperature Warehouses) / 10,000 m2
• Production of solar panels by "Solar, Nanotubes and Innovation" (Australia) / 6,000 m2
• Collection point for used solar panels. Mechanical disassembly/ 1,000 m2:
• CLASSO Warehouse Complex (B2B Warehouses) / 10,000 m2
• CLASSO Warehouse Complex (Internet Warehouses) / 20,000 m2
• Production of 40-foot maritime containers using CLASSO technology (4,600 m2)
• Container storage sites (1,000 m2)
• Parking for heavy-duty vehicles / 4,000 m2 (200 trucks of 20 tons each)
• 200-room Hotel / Separate legal entity
• 500-seat canteen / Separate legal entity
• B2B or B2B2C manufacturing
• Recycling
• Green energy
• CO2 emissions reduction
Solar, Nanotubes, and Innovation
GDB Green Port Bu +
GDB Green Technopark
In early 2024, an investment agreement was signed between port Burgas (Republic of Bulgaria), SEG Energy Leasing (UK), and GDB Funding Limited (UK) for the construction of the GDB Green Port Bu sea port. The infrastructure of the port will include CLASSO warehouses, a solar panel manufacturing plant "Solar, Nanotubes and Innovation" (Australia) with a production capacity of 300 MW per year. The plant will produce innovative solar panels with a capacity of 680 Watts, incorporating tubes from MONBAT Group. The initial investment volume is £42,000,000. The second investment package can reach up to £100,000,000.
2024/ 2027
Future construction objects, including fully or partially, and with the participation of third parties or other rights:
• GDB Solas Park (Spain)/ 13.2 MW
• CLASSO Warehouse Complex (Wholesale Warehouses) / 20,000 m2
• CLASSO Warehouse Complex (Low-temperature Warehouses) / 10,000 m2
• Production of solar panels by "Solar, Nanotubes and Innovation" (Australia) / 6,000 m2
• Collection point for used solar panels. Mechanical disassembly/ 1,000 m2:
• CLASSO Warehouse Complex (B2B Warehouses) / 10,000 m2
• CLASSO Warehouse Complex (Internet Warehouses) / 20,000 m2
• Electric Marine Systems & CLASSO
• Container storage sites (1,000 m2)
• Parking for heavy-duty vehicles / 4,000 m2 (200 trucks of 20 tons each)
• 200-room Hotel / Separate legal entity
• 500-seat canteen / Separate legal entity
• B2B or B2B2C manufacturing
• Recycling
• Green energy
• CO2 emissions reduction
The role of Bulgaria in global logistics
Bulgaria's position in global logistics is determined by its strategic geographic location, situated at the intersection of several important transportation routes between Europe, Asia, and Africa. Bulgaria has access to the Black Sea, making it a crucial hub for maritime transportation. Additionally, the country serves as a key transit point for road and rail routes connecting Western and Eastern Europe.
Bulgaria also plays a role in developing inland river transport along the Danube corridor. These factors make Bulgaria a significant player in global logistics, contributing to the development of transportation infrastructure and attracting investments in logistics projects.
Solar, Nanotubes, and Innovation
GDB Green Technopark Kyrgyzstan
We are negotiating the construction of the third port, GDB Green Technopark Kyrgyzstan (in Kyrgyzstan), near Almaty, to facilitate ferry logistics for cargo from China. The infrastructure of this project will consist of CLASSO warehouses, a solar panel manufacturing plant Solar, Nanotubes and Innovation (Australia) with a production capacity of 300 MW per year. The plant will produce innovative solar panels with a power of 500 Watts, incorporating MONBAT Group's nanotubes. The initial investment amount is £5,000,000. The second investment package can be up to £40,000,000.
2025/ 2026
Future construction objects, including fully or partially, and with the participation of third parties or other rights:
• GDB Solas Park (Spain)/ 13.2 MW
• CLASSO Warehouse Complex (Wholesale Warehouses) / 20,000 m2
• CLASSO Warehouse Complex (Low-temperature Warehouses) / 10,000 m2
• Production of solar panels by "Solar, Nanotubes and Innovation" (Australia) / 6,000 m2
• Collection point for used solar panels. Mechanical disassembly/ 1,000 m2:
• CLASSO Warehouse Complex (B2B Warehouses) / 10,000 m2
• CLASSO Warehouse Complex (Internet Warehouses) / 20,000 m2
• Electric Marine Systems & CLASSO/ Branch (River logistics)
• CLASSO DGB Air/ Outdoor drones
• Container storage sites (1,000 m2)
• Parking for heavy-duty vehicles / 4,000 m2 (200 trucks of 20 tons each)
• 200-room Hotel / Separate legal entity
• 500-seat canteen / Separate legal entity
• B2B or B2B2C manufacturing
• Recycling
• Green energy
• CO2 emissions reduction
The position of Kazakhstan in global logistics
Kazakhstan's position in global logistics is determined by its geographical location and transportation infrastructure. Situated in the heart of Eurasia, Kazakhstan serves as a key transportation hub between East and West. The country boasts an extensive network of roads, railways, and seaports facilitating the transit of goods between Europe, Asia, and other regions of the world.
Thanks to its strategic location and developed infrastructure, Kazakhstan plays a crucial role in global logistics, ensuring efficient transportation of goods and fostering trade and economic development in the region.
Solar, Nanotubes, and Innovation
GDB Green Technopark
The negotiation process
The infrastructure of the GDB Technopark will consist of CLASSO warehouses, a solar panel manufacturing plant Solar, Nanotubes and Innovation (Australia) with a production capacity of 300 MW per year. The plant will produce innovative solar panels with a capacity of 320 Watts incorporating tubes from MONBAT Group. The initial investment volume is £7,000,000. The second investment package may reach up to £20,000,000.
2025/ 2026
Future construction objects, including fully or partially, and with the participation of third parties or other rights:
• GDB Solas Park (Spain)/ 13.2 MW
• CLASSO Warehouse Complex (Wholesale Warehouses) / 20,000 m2
• CLASSO Warehouse Complex (Low-temperature Warehouses) / 10,000 m2
• Production of solar panels by "Solar, Nanotubes and Innovation" (Australia) / 6,000 m2
• Collection point for used solar panels. Mechanical disassembly/ 1,000 m2:
• CLASSO Warehouse Complex (B2B Warehouses) / 10,000 m2
• CLASSO Warehouse Complex (Internet Warehouses) / 20,000 m2
• CLASSO DGB Air/ Drones for warehouses and shops
• Container storage sites (1,000 m2)
• Parking for heavy-duty vehicles / 4,000 m2 (200 trucks of 20 tons each)
• 200-room Hotel / Separate legal entity
• 500-seat canteen / Separate legal entity
• B2B or B2B2C manufacturing
• Recycling
• Green energy
• CO2 emissions reduction
The role of Georgia in global logistics
The position of Georgia in global logistics is defined by its strategic geographic location and well-developed transportation infrastructure. Georgia is situated at the crossroads of important routes between Europe and Asia, making it a pivotal transit hub.
The country has an extensive network of roads, railways, and seaports, facilitating efficient transportation of goods. Due to its geographical location and infrastructure, Georgia plays a significant role in global logistics, contributing to the advancement of trade and the regional economy.
Developing intra-continental river and sea logistics alongside the CLASSO service
These water and land routes were not of interest to shipping and logistics companies due to the high cost of multimodal transportation. Today, as conventional logistics connections have become more expensive and somewhat less secure, there is potential for the development of new intra-continental logistics routes within the Eurasian continent, utilizing rivers, barges, road, and rail logistics integrated into a unified "door-to-door" service.
The challenge now is to achieve price parity, which is crucial for decision-making in favor of intra-continental logistics. This task is planned to be addressed by the global logistics service CLASSO through the opening of production facilities for foldable High Cube maritime containers (75 m3) in Estonia, which can now be transferred to various platforms, and the subsidization of 30 warehouses through the sale of green energy from the SEG Program.
2025/ 2030
Carbon-neutral shipping. Intracontinental logistics via rivers and seas of Eurasia.
Tbilisi, Georgia, September 24, 2024
Nation's Logistics
Changing traditional cargo delivery routes from China to Europe within the continent, utilizing river and sea routes. Free CLASSO warehouses aim to attract up to 1.5% of global trade volumes, including shipments through Kazakhstan, Georgia, and Bulgaria.
To become a Resident of the Green Technopark in Georgia
The Project is currently in the process of coordination with DHL Georgia and .
Cleo Robotics is a Boston-based company specializing in non-traditional robotic systems equipped with advanced sensors for collecting critical data in hazardous and hard-to-reach areas where GPS is denied. The global logistics service CLASSO initiated the establishment of a joint venture to create CLASSO DGB Air in the Green Technopark in Georgia.
To become a Resident of the GDB Green River Port in Kazakhstan
The Project is currently in the process of coordination with DHL Georgia and the Government of the Republic of Kazakhstan.
The Government of the Republic of Kazakhstan is taking comprehensive measures to stimulate the industrial development of the country, including: increasing trade turnover (as a transit country) between Europe and Asia and attracting investments.
However, the country's seaport facilities are not fully utilized, with an average utilization rate of only 21%. The goal of the GDB Green River Port in Kazakhstan will be to develop inland waterway and maritime logistics and foster the development of Resident enterprises within the project.
"Green energy" is just a part of our plan!
Our task is to test energy accounting and control software globally, starting with our own stations, following the principle: 5 countries with high tariffs / 2 countries with low tariffs, so that from 2026 we introduce the "green kilowatt" into non-banking payments, primarily in e-commerce.
Contact Us
Address
Contact
Opening Hours
SPPG Generating Company
3 Field Court, Gray's Inn, London, WC1R 5EF, United Kingdom
GDB Green Funding Limited
Horsham, London, West Sussex RH12 1SU, United Kingdom
GDB Solar Park
GDB Wind Park
BC ASSI Valtakatu 49-5153100 Lappeenranta, Finland
GDB Green Port Esty (Estonia/ Finland)
+44(0)744 261 79 09
+44(0)750 821 18 30
+358 50 361 51 39
Mon - Fri
8:00 am – 6:00 pm
Saturday
9:00 am – 7:00 pm
Sunday
9:00 am – 9:00 pm
We are interested in collaborating with you and would like to learn more about you and your offerings. We would appreciate it if you could provide us with details.
The collaboration between "Solar, Nanotubes, and Innovation" (Australia) and MONBAT Group (Bulgaria)
We want to share our plans with you!
At all production sites of "Solar, Nanotubes, and Innovation" (Australia), including MONBAT Group, free storage of goods at CLASSO warehouses will be financed by the income from the energy sales of our generating companies SPPG. The duration of free storage is 90 days.
GDB Solar Park/ Spain / 39,6 MW
GDB Solar Park/ Spain/ 752,400 MW
SPPG Bulgaria/ Bulgaria/ 13,2 MW
SPPS Slovenia/ Slovenia/ 13,2 MW
GDB Solar Park/ Slovenia / 39,6 MW
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SPPG Moldova/ Moldova/ 13,2 MW
SPPG Moldova/ Moldova/ 50 MW (Programa)
SPPG Georgia/ Georgia / 13,2 MW
SPPG Georgia/ Georgia / 50 MW (Programa)
SPPG Kyrgyzstan/ Kyrgyzstan / 13,2 MW
SPPG Kyrgyzstan/Kyrgyzstan/ 50 MW (Programa)
SPPG Kazakhstan/ Kazakhstan/ 13,2 MW
SPPG Kazakhstan/ Kazakhstan/ 50 MW (Programa)
SPPG Uzbekistan/ Uzbekistan/ 13,2 MW
SPPG Uzbekistan/ Uzbekistan/ 50 MW (Programa)