@ace engineering college
Asst.Professor, Chemistry Department
ACE Engineering College
Chemistry, Renewable Energy, Sustainability and the Environment, Chemical Engineering, Environmental Science
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
K. Srilatha, D. Bhagawan, G. Shankaraiah, P. Kiran Kumar, V. Himabindu, and S. Srinivasulu
Springer Science and Business Media LLC
D Bhagawan, V Chandan, K Srilatha, G Shankaraiah, M Y Rani, and V Himabindu
IOP Publishing
Wastewater treatment has become an essential part of industrial operations. A proper treatment is required to discharge this wastewater in to water bodies. Pesticide production is one of the major supporting factors to the agriculture field, since India is an agricultural based economy. The pesticide industry wastewater (PIW) contains chlorinated toxic pollutants. Treatment of such type of wastewater using conventional treatment methods might have their limitations due to the presence of toxic compounds, time consumption and complexity of the treatment process. In the past few years, the electrochemical method (Electrocoagulation (EC)/Electro oxidation (EO)) has been proposed as an effective method to treat many types of industrial effluents. In the present study, the treatment of pesticide processing industrial waste water has been carried out using electrochemical method and with combination of other advanced methods.
P. Kiran Kumar, S. Vijaya Krishna, Kavita Verma, K. Pooja, D. Bhagawan, K. Srilatha, and V. Himabindu
Elsevier BV
S. Shiva Kumar, S.U.B. Ramakrishna, S. Vijaya Krishna, K. Srilatha, B. Rama Devi, and V. Himabindu
Elsevier BV
K. Srilatha, D. Bhagawan, D. Srinivasulu, and V. Himabindu
Elsevier BV
K. Srilatha, D. Bhagawan, S. Shiva Kumar, and V. Himabindu
Elsevier BV
Jyoti, C.H. Ashok, K. Srilatha, Nirdosh Patil, and C.H. Shilpa Chakra
Elsevier BV
V. Viditha, K. Srilatha, and V. Himabindu
Springer Science and Business Media LLC
K. Srilatha, V. Viditha, D. Srinivasulu, S. U. B. Ramakrishna, and V. Himabindu
Springer Science and Business Media LLC
K. Srilatha, V. Viditha, and V. Himabindu
Elsevier BV
T. Raghavendra, K. Srilatha, C. Mahender, M. Elander, T. Vijayalakshmi, V. Himabindu, V. Prasad, P. Padma Savithri, D. Datta, and J. Arunachalam
Oxford University Press (OUP)
Uranium is a naturally occurring element, which is widespread in nature. It is found in low levels within all rocks, soils and water. Peddagattu and Seripally areas of Nalgonda district, Andhra Pradesh, India were known as a rich uranium mineralised zone. Atomic mineral division and Baba Atomic Research Center proposed a uranium mine in this area. This study was carried out to know the distribution of uranium concentration in the groundwater samples by using laser fluorimetry. The observation reveals that the uranium concentration in the groundwater of this region ranges from 0.6 to 521.15 ppb. About 43 % of the groundwater samples had the uranium concentration above the standards set by United States Environmental Protection Agency (30 ppb).