Our History
2011-2014
Modernization of a large thermal power plant with implementation of high-efficiency cogeneration gas turbine unit.
Total capacity:
57 MW and 350 gigacalories.
This power plant is located in the center of a large city and is operated by a state-owned company.
Achieved results:
- Increase in power plant energy efficiency by 27%
- Reduction of greenhouse gas emissions by 30%
- Increase in thermal energy production by approximately 210%
Added new equipment:
- Gas turbine 27 megawatts
- Gas booster compressor
- Steam boiler
- Steam waste heat boiler
During this project, we also conducted numerous energy audits and prepared detailed project documentation for registration in the Clean Development Mechanism system.
2011-present
Services for the largest Japanese government bank in the field of intergovernmental financing for major projects in electric power, telecommunications, and social infrastructure.
2011-2014
Practical research and development of new systems for managing energy-efficient lighting panels.
During these studies, more than 800 prototype and industrial samples were produced at 12 factories.
The goal of these studies:
- Improvement of lighting panel design
- Improvement of inverter design for lighting panels
These studies were conducted directly at industrial enterprises.
2012-2015
Modernization of heating systems in two cities with implementation of cogeneration gas turbine units.
Total capacity:
260 MW electricity and 540 gigacalories thermal energy.
Achieved results:
- Increase in the number of thermal energy consumers by 220%
- Reduction in the cost of thermal energy production by 45%
2012-2024
Consulting, coordination, and engineering services for metal exploration projects.
Number of sites and deposits: 8
Types of metals:
- Rare metals
- Gold
- Other metals
2015-2021
Preparation for the modernization of the heating system in 12 cities.
Total capacity:
620 MW electricity
2800 gigacalories thermal energy
54000 meters of main heating pipes.
In these projects, our company was the initiator and one of the main participants.
Detailed research and design were carried out in 12 cities with funding from our company and our partners.
After that, two pilot projects were implemented.
Thanks to this cooperation, the cost of thermal energy production for heating large areas in five cities was significantly reduced.
2016-2017
Participation as a consultant in an intergovernmental project to provide additional financing of $140,000,000 for the purchase of spare parts for high-efficiency gas turbine units with a capacity of 600 MW for a combined cycle thermal power plant (on behalf of a major gas turbine manufacturer).
2016-2020
Participation in intergovernmental cooperation for the implementation of high-efficiency gas turbines and steam turbines.
These studies were conducted on behalf of the Japanese government in cooperation with the largest Japanese electric power company.
Within this project, studies were conducted at more than 30 large industrial enterprises, including energy audits, design of energy efficiency improvement systems, and development of feasibility studies.
Total capacity:
320 MW and 600 gigacalories thermal energy.
JCAIP provided the following cooperation:
- Assistance in the development of Feasibility Study and Project Design Documentation
- Assistance in contract structuring
- Assistance in fundraising
- Assistance in obtaining approvals from all project participants
- Assistance in obtaining approvals from government bodies and inspections
- Engineering services in thermo-mechanics
- Engineering services in automated control systems
2016-2021
Three model projects in three different cities.
Implementation of smart systems in road traffic management.
Detailed feasibility studies were also conducted in 22 cities.
Achieved results:
- Reduction of traffic congestion
- Reduction of exhaust gas emissions
2018-2022
Modernization of a large thermal power plant through the introduction of a new high-efficiency gas turbine cogeneration system.
Total capacity:
60 MW electricity and 300 gigacalories thermal energy.
JCAIP provided the following cooperation:
- Assistance in the development of Feasibility Study and Project Design Documentation
- Assistance in contract structuring
- Assistance in fundraising
- Assistance in obtaining approvals from all project participants
- Assistance in obtaining approvals from government bodies and inspections
- Engineering services in construction and thermo-mechanics
- Engineering services in automated control systems
2020-2022
Consulting and engineering services for an intergovernmental project to convert a large urban heating boiler house to a cogeneration system.
Total capacity:
7 MW and 100 gigacalories thermal energy.
Project results:
- Increase in heat supply
- Significant reduction in the cost of heat production
2021-2025
Feasibility studies for the preparation and development of JCM projects in derivative hydropower in Kazakhstan, Uzbekistan, and Kyrgyzstan.
Total capacity of all hydropower plants: 260 MW.
2021-2025
Feasibility studies for the preparation and development of JCM projects in solar power in Kazakhstan, Uzbekistan, and Kyrgyzstan.
Total capacity of all power plants: 450 MW.
2021-2025
Feasibility studies for the preparation and development of JCM projects in wind power in Uzbekistan and Kazakhstan.
Total capacity of all stations: 370 MW.
2024-2025
Studies of rules and practices of public-private partnership in electric power and renewable energy.
Studies of rules and practices of implementing investment projects with state guarantees.
Studies of the latest rules and practices of electricity supply contracts.
Studies of the SWISS-Challenge system in electricity supply tenders.
During these studies, data was collected and analyzed from 50 different enterprises and organizations.
During these studies, not only producers and consumers of electricity were interviewed, but also representatives of various government bodies responsible for regulating relations in these sectors.
2024-present
Participation in the preparation of projects for replacing fossil fuels with hydrogen fuel.
These studies are conducted with the participation of manufacturers of innovative hydrogen burners, engineering companies, and owners of thermal power plants.
Fuel replacement occurs through the introduction of a thermopyrolysis hydrogen production system and a hydrogen combustion system.
These systems allow reducing fossil fuel consumption by up to 75% and greenhouse gas emissions by up to 70%.
These hydrogen systems can be implemented at various industrial and energy enterprises.
Hydrogen fuel production systems are also ideal for implementation in heating systems for residential areas and agricultural greenhouses.
The cost of these hydrogen systems is among the lowest in the world and pays off in less than one year after implementation.