Indian net bowler Avesh Khan is set to get back to India from the United Arab Emirates. The pacer was picked as a net bowler for the public group for the 2021 version of the T20 World Cup. The choice was taken after his terrific show for the Delhi Capitals in the 2021 version of the Indian Premier League.
Indian net bowler Avesh Khan was among the main wicket-takers in the competition and dazzled every last one with his capacity to convey at different phases of matches.
Subsequently, he was approached to remain back in the UAE to fill in as Team India’s net bowler for the progressing multi-country competition.
In any case, he will currently be getting back because of certain reasons. Khan posted a story on his Instagram handle where he was seen heading out from Dubai to New Delhi.
Khan had performed to the degree that quite possibly the group the board would have remembered him for the crew if the necessity came up. Khan additionally received acclaims for producing critical measure of bob from level surfaces and timing over 140 kph consistently.
“The national selectors have decided to also include Avesh in the mix. As of now, he will be a net bowler but if the team management feels, he can be upgraded,” said by BCCI Source.
“Avesh bowls at an average speed of 142 to 145 clicks, earns disconcerting bounce from the flattest of decks and has been on support staff’s radar for some time,” added by Source.
Group India’s mission for the present is in somewhat a touch of ruins. On Sunday, October 24, Pakistan crushed them by 10 wickets at the Dubai International Cricket Stadium. Shaheen Afridi’s initial burst pushed the Men in Blue on the back-foot and from that point on, India couldn’t recuperate.
Virat Kohli scored 50 years, however his thump went to no end. Mohammad Rizwan and Babar Azam assisted Pakistan with chasing down 152 without breaking a sweat. India’s subsequent game is against New Zealand, driven by Kane Williamson, on October 31. If they lose their next game, Kohli and Co. would be in for a difficult situation.