The integration of distributed generators has changed the paradigm of modern power transmission systems. To cope with energy demands, electrical networks emphasize the efficient utilization of power transmission. Thus, high-voltage DC (HVDC) and hybrid (AC/DC) transmission systems are also getting attention owing to their high efficiency in addition to the widely adopted high-voltage AC (HVAC) systems. Most faults in the bulk of transmission lines are temporary or intermittent. Auto-reclosing schemes can be used to prevent these faults. However, conventional auto-reclosing schemes based on constant dead time cannot recognize the fault nature within the assigned duration. Consequently, the accuracy of power grids can be compromised. Therefore, adaptive auto-reclosing schemes are convenient for overcoming the issues caused by the rapid restoration of faulty power lines. This can enhance system reliability and avoid power failures and blackouts. This study is based on a systematic, detailed, and thorough research review of the existing auto-reclosing schemes in all three power transmission lines, i.e., AC, DC, and hybrid (AC/DC). Subsequently, a critical analysis has been performed to assess the pros and cons of each existing adaptive auto-reclosing scheme. Finally, future recommendations are presented to improve adaptive auto-reclosing schemes in each medium.
Crop seeds are generally stored for next crop season and bear losses from vertebrate and invertebrate pests. In invertebrates, stored grain insect pests are mainly responsible for loss in weight and viability issues. Five sorghum varieties, viz. RS-29, Rari-S-4, Rari-SV-10, SPV-462 and Johar-1 were compared for infestation of Sitotroga cerealella under laboratory and semi-field conditions. RS-29 was found to be the most resistant variety and Johar-1 to be the most susceptible when losses were observed after 30, 60 and 90 days of infestation. Maximum infestation and weight loss was observed in Johar-1 (28%). Germination percentage was found to be decreased to 65% in RS-29 and 47% in Johar-1 in laboratory, and 60% in RS-1 and 43% in Johar-1 under semi-field conditions. Possibilities to decrease these losses have been discussed for effective management of stored grain pest losses.
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