References
1. Tilloev, L. I., Usmonov, H. R. U., & Khamidov, D. G. (2020). TECHNICAL
CLASSIFICATION OF WASTE IN GAS CHEMICAL COMPLEXES. Universum:
Engineering Sciences, (5-2 (74)).
2. Tilloev, L. I., Kosimov, E. K. U., & Murodov, M. N. (2020). SEPARATION
OF YELLOW OIL AND DETERMINATION
OF PHYSICAL INDICATORS OF
THE OIL PART OBTAINED FROM IT. Universum: technical sciences, (1 (70)).
3. Salimov, I.R., Murodova, Yu.M. K., Murodov, M.N., Tilloev, L.I., &
Khayitov, R.R. (2020). DETERMINATION OF THE OPTIMAL MODE OF
OBTAINING ACTIVATED CARBON FROM FRUIT PITS SHELL FOR
PURIFICATION OF ALKANOLAMINES. Universum:
Engineering Sciences, (7-2
(76)).
4. Murodova, Yu. M. K., Murodov, M. N., Sattorov, M. O., & Tilloev, L. I.
(2020). RESEARCH OF INDICATORS AND PROPERTIES OF DIESEL FUELS
AFFECTING SUPPLY AND MIXTURE FORMATION.
Questions of science and
education, (23 (107)).
5. Murodova, Yu.M.K., Murodov, M.N., Tilloev, L.I., & Sattorov, M.O. (2020).
STUDYING METHODS FOR PRODUCING METHANOL FOR PRODUCING
HIGH-OCTANE GASOLINES. Questions of science and education, (23 (107)).
6. Ataullaev, Sh. N., Tilloev, L. I., & Halimov, A. A. (2019). ANALYSIS OF
TECHNOLOGY OF DEEP GAS DRYING
WITH THE APPLICATION OF
GLYCOL SOLUTIONS. Theory and practice of modern science, (3), 33-35.
7. Tilloev, L. I., & Akhrorov, A. A. (2019). INFLUENCE OF CHANGES IN
THE MAIN FACTORS ON THE CONDITIONS
OF THE REFORMING PROCESS
IN THE BNPZ. Theory and Practice of Modern Science, (3), 290-291.
8. Komilov, M.Z., & Tilloev, L.I. (2018). The efficiency of the catalytic
reforming process. Scientific Aspect, 7 (4), 877-879.
"Science and Education" Scientific Journal
December 2020 / Volume 1 Issue 9
www.openscience.uz
161
9.
Davronov, F.F.U., & Tilloev, L.I. (2018). Raw material for biogas production.
Science and education issues, (2 (14)).
10. Davronov, F.F.U., Nusratilloyev, I.A.U., & Tilloev, L.I. (2018). Study of the
characteristics of physical absorbers for gas cleaning.
Science and education issues,
(3 (15)).
11. Davronov, F.F.U., & Tilloev, L.I. (2018). Historical roots of biogas
technologies. Science and education issues, (2 (14)).
12.Nigmatullaev, A.A., & Tilloev, L.I. (2017). Biogas preparation for use.
Science and education issues, (2 (3)).
13. Tilloev, L.I., & Davronov, F.F.U. (2017). Methodology for calculating a
biogas plant for biomass processing. Science and education issues, (2 (3)).
14. Nigmatullaev, A.A., Tilloev, L.I., & Davronov, F.F.U. (2017). New design
of a biogas plant recuperator. Science and education issues, (1 (2)).
15.
Sharipov, Sh.K.U., & Tilloev, L.I. (2017). Biogas production by bacterial
fermentation. Science and education issues, (2 (3)).
16.Tilloev, L.I., Nurullaeva, Z.V., & Nigmatullaev, A.A. (2016). Determination
of biogas composition by chromatographic method and improvement of production
technology. Young Scientist, (8), 310-312.
17. Komilov, O. S., Astanov, S. K., Safarov, O. F., Sharipov, M. Z., Faizullaev,
A. R., & Tillaev, L. (2009). Combined solar drying unit. Applied Solar Energy, 45
(4), 262-265.
18. Komilov, O., Astanov, S., Safarov, O., Sharipov, M., Faizullaev, A., &
Tillaev, L. (2009). Combined solar drying unit. Appl Sol. Energy, 45 (4), 71-5.
19. Komilov, OS, Sharipov, MZ, Tilloev, LI, & Mazhidov, Zh. O.
AUTONOMOUS BIOGAS PLANT WITH A SOLAR HEATING SYSTEM. BBK
L80-5-05ya4 M 74, 84.
20.Khamidov, D.G., & Bazarov, G.R. (2017).
Physical and chemical
foundations of the process of dewaxing of petroleum products. Science and education
issues, (3 (4)).
"Science and Education" Scientific Journal
December 2020 / Volume 1 Issue 9
www.openscience.uz
162