HanuMan
Photo Credit: Primeshow Entertainment

Teja Sajja’s HanuMan OTT Release Date Postponed, Claim Reports

Teja Sajja’s HanuMan is ruling the box office as the superhero film presently has no signs of stopping despite being on day 18. HanuMan initiated its box office run with a slow start of $499.1K only. However, the film has had a massive surge since day two after the audience started self-promoting the movie. As of writing, HanuMan has collected about $20.9 million in its India net and $30 million worldwide grossing.

The superhero film revolves around the story of Hanumanthu, who is growing up under the guidance of her elder sister. Later, the film introduces Meenakshi’s character, who was disclosed as the childhood love of Hanumanthu.

On the other hand, Michael is revealed as a child with a vision of becoming a superhero like Marvel. However, this only results in his greed for power, turning him into a villainous character.

The climax of the movie witnessed an intense clash between Michael and Hanumanthu. Meanwhile, the conclusion of Hanuman is something that energizes the audience due to the inclusion of the arrival of Lord Hanuman. In addition, the film finished with the revelation of the next sequel, Jai Hanuman.

HanuMan OTT release date is March 2, 2024

Viewers who, for some reason, fail to reach the theaters to witness this blockbuster superhero film are eagerly awaiting its digital debut. Amid this, reports circulated stating that the OTT release of HanuMan was pushed back from the original plans.

As of writing, the film is set to make its digital debut on March 2, 2024. Additionally, the report also revealed that Zee5 will be the streaming platform for HanuMan OTT.

However, it is essential to note that this is only the tentative OTT release date of the film. The makers or the OTT platform have yet to make any official announcement.

Overall, it will be intriguing to see when Teja Sajja’s HanuMan will make its digital debut after getting an overwhelming response in theaters.

Movie News
Marvel and DC
X