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Poster presentation 
335 
OBTAINING ACARICIDES BASED ON OBTAINING INDENE 
FROM A SECONDARY PRODUCT PRODUCED IN NATURAL 
GAS PROCESSING AND THEIR BIOLOGICAL ACTIVITY
F. Z. Burkhev
1
, Q. J. Rustamov
2 
Gulistan State University, Laboratory "Experimental biology"
1
 
Republican Center for the fight against termites
2
Email: 
farkhod_2020@mail.ru
 
Heavy pyrolysis oil, which is considered a secondary product in natural gas 
processing, is a complex multi-component mixture, a number of works are 
underway to process it. 
Thermal processing (fractional processing) (T
boil
=181°C) 
under 165-185°C temperature conditions enabled producing indene containing liquids. 
During the studies, it was found that the mixture obtained contains complexes 
composed of methyl and ethyl-containing derivatives of indene and aromatic 
compounds that contained various radicals. The initial fraction of pyrolysis oil 
containing indene was influenced by Na metal to form a sodium compound of indene. 
The resulting compound was transformed into a sodium salt of indene–1 carbonic acid 
in a toluene medium. 
Various etherification reactions were conducted to obtain ethers based on the indene 
ring. Taking into account the use of ethers obtained on the basis of indene as acaricides, 
the effect of the obtained preparation “Inden–1” on red spider mite that cause serious 
damage to agricultural crops was studied at the Republican Center for the fight against 
termites at the Institute of Zoology of the Academy of Sciences of the Republic of 
Uzbekistan. The analysis of the obtained values of the biological effectiveness of the 
experimental and etalon preparations by the ratio of the preparation and solvent gave the 
following result: to combat red spider mites, 2ml of the A1 preparation was added to 
100 ml of water and treated a certain number of insects. The calculations showed that on 
day 3 after the exposure to the preparation, the effectiveness was 48.2%, 54.1% - after 7 
days and 72.3% - after 14 days. At the same time, the insects were treated by adding 2 
ml of the drug B1 to 20 ml of water. The calculations showed that the results were 
46.2% on day 3 of the experiment, 80.6% on day 7, and on day 14 - 95.2%. The insects 
were treated with the B1 preparation at 2 ml of it to 100 ml water ratio; from the 
calculations point ov view, the values of biological efficiency in 3 days was 45.7%, on 
day 7 of the experiment - 54.7% and in 14 days = 72.9%. For the purposes of 
identifying the limits of affecting, the efficiency at adding 2 ml of B1 preparation to 500 
ml water in 3 days was 22.2%, in 7 days - 32.3% and on day 14 - 51.8%.Then treatment 
was conducted by adding 5 ml of C1 preparation to 500 ml water. In 3 days the 21.6%, 
on day 7 - 32.4%, and in 14 days - 51.0% efficiency was registered.
We used 1.8% Abamectin solution as a reference substance. We prepared a standard 
sample by adding 8 ml of the solution to 500 ml water. Treatment with the standard 
sample showed that on day 3 od the experiment the efficiency value was 44.85, on day 
7 - 81.4% and on day 14 of observations - 95.2%. It was demonstrated that the highest 
efficiency value was achieved at the experiment when 2 ml of the preparation was 
resolved in 20 ml water to use against red spider mites. It was identified that using this 
preparation for agricultural crop fileds would meet the admitted criteria. 

Poster presentation 
336 

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