Dr K SRILATHA

RESEARCH, TEACHING, or OTHER INTERESTS

Chemistry, Renewable Energy, Sustainability and the Environment, Chemical Engineering, Environmental Science

Scopus Publications

Performance evaluation of different advanced processes for treating chloro-pesticide intermediate industrial wastewater
K. Srilatha, D. Bhagawan, G. Shankaraiah, P. Kiran Kumar, V. Himabindu, and S. Srinivasulu
Springer Science and Business Media LLC



Industrial wastewater treatment using electrochemical process
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.


Bio oil production from microalgae via hydrothermal liquefaction technology under subcritical water conditions
P. Kiran Kumar, S. Vijaya Krishna, Kavita Verma, K. Pooja, D. Bhagawan, K. Srilatha, and V. Himabindu
Elsevier BV



Synthesis of titanium (IV) oxide composite membrane for hydrogen production through alkaline water electrolysis
S. Shiva Kumar, S.U.B. Ramakrishna, S. Vijaya Krishna, K. Srilatha, B. Rama Devi, and V. Himabindu
Elsevier BV



Comparison study between Ni/TiO<inf>2</inf> and Ni/flame synthesized TiO<inf>2</inf> catalysts for hydrogen production using thermocatalytic decomposition of methane
K. Srilatha, D. Bhagawan, D. Srinivasulu, and V. Himabindu
Elsevier BV



Sustainable fuel production by thermocatalytic decomposition of methane – A review
K. Srilatha, D. Bhagawan, S. Shiva Kumar, and V. Himabindu
Elsevier BV



Hydrogen Production from Methane Decomposition Using Nano Metal Oxides
Jyoti, C.H. Ashok, K. Srilatha, Nirdosh Patil, and C.H. Shilpa Chakra
Elsevier BV



Hydrogen storage studies on palladium-doped carbon materials (AC, CB, CNMs) @ metal–organic framework-5
V. Viditha, K. Srilatha, and V. Himabindu
Springer Science and Business Media LLC



Hydrogen production using thermocatalytic decomposition of methane on Ni<inf>30</inf>/activated carbon and Ni<inf>30</inf>/carbon black
K. Srilatha, V. Viditha, D. Srinivasulu, S. U. B. Ramakrishna, and V. Himabindu
Springer Science and Business Media LLC



Ni-SBA-15 Catalysts for Production of Hydrogen and Carbon Nanotubes
K. Srilatha, V. Viditha, and V. Himabindu
Elsevier BV



Distribution of uraniumconcentration in groundwater samples from the peddagattu/ nambapur and seripally regions using laser fluorimetry
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).

RECENT SCHOLAR PUBLICATIONS

From Concept to Assessment: Creating an Oral In-Situ Gelling System with Sucralfate
P Sahani, KS Srilatha, HA Ahad, SK Sah, B Dkhar, RK Prajapati
KEPES 21 (3), 555-567 2023



Innovative Approaches to Enhance Gastric Retention of Rabeprazole Using Macrocystis pyrifera Extract
P Syiemlieh, KS Srilatha, HA Ahad, C Sequeira, B Dkhar, J Mithi
Centre For Advancement Of Applied Sciences 25 (4), 465-474 2023



FORMULATION AND CHARATERIZATION OF CURCUMIN PERIO DONTAL FILMS FOR LOCAL DELIVERY OF ANTIMICROBIALS
KS Srilatha, SV Kulkarani, M Shringi, PA Kumar, B Gopalakrishna
Journal of Pharmaceutical Negative Results, 1801-1814 2022



Performance evaluation of different advanced processes for treating chloro-pesticide intermediate industrial wastewater
K Srilatha, D Bhagawan, G Shankaraiah, PK Kumar, V Himabindu, ...
Sustainable Water Resources Management 5, 1833-1846 2019



Indian Journal of Novel Drug Delivery
KS SRILATHA, RAJKRAY YADAV, A GEETHALAKSHMI, K MAHALINGAN, ...
Indian Journal of Novel Drug Delivery 11 (3), 158-166 2019



Pyrolysis of Garden Waste: Comparative Study of Leucaena leucocephala (Subabul Leaves) and Azadirachta indica (Neem Leaves) Wastes
K Srilatha, D Bhagawan, V Himabindu
Waste Valorisation and Recycling: 7th IconSWM—ISWMAW 2017, Volume 2, 293-306 2019



Industrial wastewater treatment using electrochemical process
D Bhagawan, V Chandan, K Srilatha, G Shankaraiah, MY Rani, ...
IOP conference series: earth and environmental science 191 (1), 012022 2018



Bio oil production from microalgae via hydrothermal liquefaction technology under subcritical water conditions
PK Kumar, SV Krishna, K Verma, K Pooja, D Bhagawan, K Srilatha, ...
Journal of microbiological methods 153, 108-117 2018



Comparison study between Ni/TiO₂ and Ni/flame synthesized TiO₂ catalysts for hydrogen production using thermocatalytic decomposition of methane
V Himabindu, K Srilatha, D Bhagawan, D Srinivasulu
South African Journal of Chemical Engineering 25 (1), 91-97 2018



Synthesis of titanium (IV) oxide composite membrane for hydrogen production through alkaline water electrolysis
SS Kumar, SUB Ramakrishna, SV Krishna, K Srilatha, BR Devi, ...
South African Journal of Chemical Engineering 25 (1), 54-61 2018



Comparison study between Ni/TiO2 and Ni/flame synthesized TiO2 catalysts for hydrogen production using thermocatalytic decomposition of methane
D Bhagawan, V Himabindu, K Srilatha, D Srinivasulu
2018



Thermocatalytic decomposition of methane for sustainable hydrogen production using Ni/ZnO and Ni/MgO catalyst
K Srilatha, D Bhagawan, SS Kumar, V Himabindu
J Nanosci Nanoeng Appl 7, 10-19 2018



Sustainable fuel production by thermocatalytic decomposition of methane–A review
K Srilatha, D Bhagawan, SS Kumar, V Himabindu
south african journal of chemical engineering 24, 156-167 2017



DESIGN OF FLOATING IN SITU GEL OF MUCOLYTIC AGENT BY CATION INDUCED GELATION OF NATURAL POLYSACCHARIDES
KS Srilatha, MGR Priya, G Sangeetha, N Pathak
2017



Sustainable fuel production by thermocatalytic decomposition of methane–A review
D Bhagawan, V Himabindu, S Shiva Kumar, K Srilatha
2017



Hydrogen production from methane decomposition using nano metal oxides
CH Ashok, K Srilatha, N Patil, CHS Chakra
Materials Today: Proceedings 4 (11), 11679-11689 2017



Thermo catalytic decomposition of methane over Cu-Al2O3 and 5-20wt% Ni-Cu-Al2O3 catalysts to produce hydrogen and carbon nanofibers
K Srilatha, D Bhagawan, V Himabindu
Adv. Mater. Proc. 2 (1), 35e40. https://doi. org/10.5185/amp 109 2017



Hydrogen production using thermocatalytic decomposition of methane on Ni30/activated carbon and Ni30/carbon black
K Srilatha, V Viditha, D Srinivasulu, SUB Ramakrishna, V Himabindu
Environmental Science and Pollution Research 23 (10), 9303-9311 2016



Hydrogen storage studies on palladium-doped carbon materials (AC, CB, CNMs)@ metal–organic framework-5
V Viditha, K Srilatha, V Himabindu
Environmental Science and Pollution Research 23, 9355-9363 2016



Ni-SBA-15 catalysts for production of hydrogen and carbon nanotubes
K Srilatha, V Viditha, V Himabindu
Materials Today: Proceedings 2 (9), 4550-4556 2015

MOST CITED SCHOLAR PUBLICATIONS

Bio oil production from microalgae via hydrothermal liquefaction technology under subcritical water conditions
PK Kumar, SV Krishna, K Verma, K Pooja, D Bhagawan, K Srilatha, ...
Journal of microbiological methods 153, 108-117 2018
Citations: 69



Synthesis of titanium (IV) oxide composite membrane for hydrogen production through alkaline water electrolysis
SS Kumar, SUB Ramakrishna, SV Krishna, K Srilatha, BR Devi, ...
South African Journal of Chemical Engineering 25 (1), 54-61 2018
Citations: 65



Sustainable fuel production by thermocatalytic decomposition of methane–A review
K Srilatha, D Bhagawan, SS Kumar, V Himabindu
south african journal of chemical engineering 24, 156-167 2017
Citations: 51



Distribution of uranium concentration in groundwater samples from the Peddagattu/Nambapur and Seripally regions using laser fluorimetry
T Raghavendra, K Srilatha, C Mahender, M Elander, T Vijayalakshmi, ...
Radiation Protection Dosimetry 158 (3), 325-330 2014
Citations: 21



Hydrogen production using thermocatalytic decomposition of methane on Ni30/activated carbon and Ni30/carbon black
K Srilatha, V Viditha, D Srinivasulu, SUB Ramakrishna, V Himabindu
Environmental Science and Pollution Research 23 (10), 9303-9311 2016
Citations: 19



Industrial wastewater treatment using electrochemical process
D Bhagawan, V Chandan, K Srilatha, G Shankaraiah, MY Rani, ...
IOP conference series: earth and environmental science 191 (1), 012022 2018
Citations: 17



Hydrogen storage studies on palladium-doped carbon materials (AC, CB, CNMs)@ metal–organic framework-5
V Viditha, K Srilatha, V Himabindu
Environmental Science and Pollution Research 23, 9355-9363 2016
Citations: 13



Comparison study between Ni/TiO₂ and Ni/flame synthesized TiO₂ catalysts for hydrogen production using thermocatalytic decomposition of methane
V Himabindu, K Srilatha, D Bhagawan, D Srinivasulu
South African Journal of Chemical Engineering 25 (1), 91-97 2018
Citations: 11



Ni-SBA-15 catalysts for production of hydrogen and carbon nanotubes
K Srilatha, V Viditha, V Himabindu
Materials Today: Proceedings 2 (9), 4550-4556 2015
Citations: 9



BN, Venkateswar, S. and Sai Prasad, PS,“Esterification of Free Fatty Acids for Biodiesel Production over Heteropoly Tungstate Supported on Niobia Catalysts,”
K Srilatha, N Lingaiah, BLA Prabhavathi Devi
Appl. Catal. A Gen 365, 28-33 2009
Citations: 7



Pyrolysis of Garden Waste: Comparative Study of Leucaena leucocephala (Subabul Leaves) and Azadirachta indica (Neem Leaves) Wastes
K Srilatha, D Bhagawan, V Himabindu
Waste Valorisation and Recycling: 7th IconSWM—ISWMAW 2017, Volume 2, 293-306 2019
Citations: 6



Hydrogen production from methane decomposition using nano metal oxides
CH Ashok, K Srilatha, N Patil, CHS Chakra
Materials Today: Proceedings 4 (11), 11679-11689 2017
Citations: 6



Performance evaluation of different advanced processes for treating chloro-pesticide intermediate industrial wastewater
K Srilatha, D Bhagawan, G Shankaraiah, PK Kumar, V Himabindu, ...
Sustainable Water Resources Management 5, 1833-1846 2019
Citations: 5



Thermo catalytic decomposition of methane over Cu-Al2O3 and 5-20wt% Ni-Cu-Al2O3 catalysts to produce hydrogen and carbon nanofibers
K Srilatha, D Bhagawan, V Himabindu
Adv. Mater. Proc. 2 (1), 35e40. https://doi. org/10.5185/amp 109 2017
Citations: 5



Emphasis on novel granulation technologies: An overview
PG Subhash, KS Srilatha, MP Ajay Kumar, S Jamal Shariff, ...
Indo American Journal of Pharmaceutical Research 1, 305-316 2011
Citations: 4



Production of Hydrogen and Carbon Nanotubes using Ni SBA-15 Catalyst
K Srilatha, D Srinivasulu, SUB Ramakrishna, V Viditha, V Himabindu
International Journal of Innovation and Applied Studies 9 (1), 490 2014
Citations: 3



Thermocatalytic decomposition of methane for sustainable hydrogen production using Ni/ZnO and Ni/MgO catalyst
K Srilatha, D Bhagawan, SS Kumar, V Himabindu
J Nanosci Nanoeng Appl 7, 10-19 2018
Citations: 2



A study on metal organic framework (MOF-177) synthesis, characterization and hydrogen adsorption-desorption cycles
V Viditha, M Venkateswer Rao, K Srilatha, V Himabindu, A Yerramilli
International Journal of Energy and Environment (Print) 4 2013
Citations: 2



From Concept to Assessment: Creating an Oral In-Situ Gelling System with Sucralfate
P Sahani, KS Srilatha, HA Ahad, SK Sah, B Dkhar, RK Prajapati
KEPES 21 (3), 555-567 2023
Citations: 1



Innovative Approaches to Enhance Gastric Retention of Rabeprazole Using Macrocystis pyrifera Extract
P Syiemlieh, KS Srilatha, HA Ahad, C Sequeira, B Dkhar, J Mithi
Centre For Advancement Of Applied Sciences 25 (4), 465-474 2023
Citations: 1