Call-center
+998 75 220 00 01
E-mail
kasu_info@edu.uz
Address
180119, Karshi city, Kuchabag street, house-17
Established: September 5, 2024
Scientific Research Areas of the Laboratory:
-Collaborating with experts from international organizations and professors from foreign higher education institutions to participate in scientific grants, conduct research and development, and implement international scientific and technical cooperation.
-Studying the energy transformation and transfer processes in radiative heat exchange, accounting for the absorption and scattering of light energy in semi-transparent media through their spectral-optical characteristics within the coatings of solar devices and structures.
Goal of the Laboratory:To enhance the international and national reputation of the university in the field of renewable energy sources, to train highly qualified personnel in alternative energy sectors within the Republic, to conduct advanced scientific and practical research, and to commercialize scientific research findings.
Tasks of the Laboratory:
-Participating in scientific projects within the framework of international grants and State Scientific and Technical Programs (SSTP). Establishing a system of seminars, training sessions, and consultations for faculty members and researchers in this field;
-Advancing research on the efficient use of non-conventional and renewable energy sources, monitoring existing problems within industrial enterprises, conducting research to solve these issues, and focusing on the implementation of key results into production;
-Implementing research and development findings from the scientific laboratory into practice;
-Establishing the integration of field-specific research results into various industries;
-Organizing seminars and training sessions on publishing scientific articles in journals indexed in Scopus, ScienceDirect, Web of Science, Springer Nature, and RSCI databases;
-Working closely with international ranking agencies such as QS, THE (Times Higher Education), and ARWU, and implementing systematic measures to ensure the university’s inclusion in the top 1000 world university rankings;
-Quickly and easily detecting external temperature differences—utilizing thermal imaging cameras for detailed visualization of temperature gradients, featuring high thermal sensitivity and a wide range for various thermal measurement options;
-Measuring the total amount of solar radiation falling on a horizontal surface;
-Utilizing specialized tools for the rapid testing of individual solar panels, specifically for identifying inefficient units within a system, which significantly simplifies diagnostics compared to standard digital multimeters.
Equipment:
1. Тепловизор Bosch GTC 600 C Professional
2. Computer Controlled Photovoltaic Solar Energy Unit
3. Computer Controller Thermal Solar Energy Unit
4. Termoelektricheskiy pirometr s dachikom solnechnogo izlucheniya.
5. Elejoy EY800W Solar Panel Multimeter Review
6. Anemometr elektronniy Model: GM8910-1