Your search keyword '"Venkata Krishna Kumar Upadhyayula"' showing total 3 results

1. Environmental Sustainability of Bioenergy Strategies in Western Kenya to Address Household Air Pollution

Author

Ricardo Luís Carvalho, Pooja Yadav, Natxo García-López, Robert Lindgren, Gert Nyberg, Rocio Diaz-Chavez, Venkata Krishna Kumar Upadhyayula, Christoffer Boman, and Dimitris Athanassiadis

Subjects

agroforestry, waste valorization, sustainable development goals, renewable energy, bioenergy transitions, circular bioeconomy, clean cooking, life-cycle assessment, energy policy, Technology

Abstract

Over 640 million people in Africa are expected to rely on solid-fuels for cooking by 2040. In Western Kenya, cooking inefficiently persists as a major cause of burden of disease due to household air pollution. Efficient biomass cooking is a local-based renewable energy solution to address this issue. The Life-Cycle Assessment tool Simapro 8.5 is applied for analyzing the environmental impact of four biomass cooking strategies for the Kisumu County, with analysis based on a previous energy modelling study, and literature and background data from the Ecoinvent and Agrifootprint databases applied to the region. A Business-As-Usual scenario (BAU) considers the trends in energy use until 2035. Transition scenarios to Improved Cookstoves (ICS), Pellet-fired Gasifier Stoves (PGS) and Biogas Stoves (BGS) consider the transition to wood-logs, biomass pellets and biogas, respectively. An Integrated (INT) scenario evaluates a mix of the ICS, PGS and BGS. In the BGS, the available biomass waste is sufficient to be upcycled and fulfill cooking demands by 2035. This scenario has the lowest impact on all impact categories analyzed followed by the PGS and INT. Further work should address a detailed socio-economic analysis of the analyzed scenarios.

Published

2020

2. A comprehensive review on the use of algal-bacterial systems for wastewater treatment with emphasis on nutrient and micropollutant removal

Author

Raj Kumar Oruganti, Keerthi Katam, Pau Loke Show, Venkataramana Gadhamshetty, Venkata Krishna Kumar Upadhyayula, and Debraj Bhattacharyya

Subjects

Bacteria, fungi, food and beverages, quorum sensing, micropollutant, Bioengineering, Nutrients, General Medicine, Wastewater, Waste Disposal, Fluid, Applied Microbiology and Biotechnology, resource recovery, Algal-bacterial, Water Purification, wastewater treatment, Vattenbehandling, Water Treatment, Microalgae, Biomass, Biotechnology

Abstract

The scarcity of water resources and environmental pollution have highlighted the need for sustainable wastewater treatment. Existing conventional treatment systems are energy-intensive and not always able to meet stringent disposal standards. Recently, algal-bacterial systems have emerged as environmentally friendly sustainable processes for wastewater treatment and resource recovery. The algal-bacterial systems work on the principle of the symbiotic relationship between algae and bacteria. This paper comprehensively discusses the most recent studies on algal-bacterial systems for wastewater treatment, factors affecting the treatment, and aspects of resource recovery from the biomass. The algal-bacterial interaction includes cell-to-cell communication, substrate exchange, and horizontal gene transfer. The quorum sensing (QS) molecules and their effects on algal?bacterial interactions are briefly discussed. The effect of the factors such as pH, temperature, C/N/P ratio, light intensity, and external aeration on the algal-bacterial systems have been discussed. An overview of the modeling aspects of algal-bacterial systems has been provided. The algal-bacterial systems have the potential for removing micropollutants because of the diverse possible interactions between algae-bacteria. The removal mechanisms of micropollutants ? sorption, biodegradation, and photodegradation, have been reviewed. The harvesting methods and resource recovery aspects have been presented. The major challenges associated with algal-bacterial systems for real scale implementation and future perspectives have been discussed. Integrating wastewater treatment with the algal biorefinery concept reduces the overall waste component in a wastewater treatment system by converting the biomass into a useful product, resulting in a sustainable system that contributes to the circular bioeconomy.

Published

2022

3. Contributors

Author

Zularisam ab bin Wahid, Min Addy, Birgitte Ahring, Syeda Nazish Ali, Muhammad Naveed Anwar, Nabin Aryal, Dimitris Athanassiadis, Mukesh Kumar Awasthi, Ashutosh Awasthi, Sanjeev Kumar Awasthi, Mujtaba Baqar, Satya Sundar Bhattacharya, Nilutpal Bhuyan, Tuhin Kanti Biswas, Neonjyoti Bordoloi, Anuj Kumar Chandel, Ram Chandra Poudel, Hongyu Chen, Paul Chen, Yanling Cheng, Ravi Kumar Chhetri, Kirk Cobb, Subhasish Das, Silvio Silvério da Silva, Utsab Deb, Goldy De Bhowmick, Sarah de Souza Queiroz, Kuan Ding, Yumin Duan, Maria das Graças de Almeida Felipe, Tsai Garcia-Perez, Manuel Garcia-Perez, Bhabesh Gogoi, Lina Gogoi, Nirmali Gogoi, Linee Goswami, Reena Gupta, Indarchand Gupta, David J.I. Gustavsson, Prakash M. Halami, Aoxi He, Andrés Felipe Hernández-Pérez, Moonmoon Hiloidhari, Zhen Hu, Avinash P. Ingle, Dharana Jayant, Ratna Kalita, Dipanjan Kashyap, Rupam Kataki, P.C. Kesavan, Muhammad Usman Khan, Samir Kumar Khanal, Suman Kharel, Manish Kumar, Hanwu Lei, Tao Liu, Yuhuan Liu, Shiyu Liu, Paulo Ricardo Franco Marcelino, Sabrina Martiniano, Kristina Medhi, Arti Mishra, Puranjan Mishra, Santanu Mukherjee, Rumi Narzari, Tankeswar Nath, Hua Thai Nhan, Abdul Sattar Nizami, D.R. Palsaniya, Ashok Pandey, Deepak Pant, Peng Peng, Rafael R. Philippini, Shiv Prasad, Supriyanka Rana, Xiuna Ren, Roger Ruan, Saurabh Sarma, Ajit Kumar Sarmah, Jenna Senecal, Pradeep Kumar Sharma, Prithvi Simha, Kripal Singh, Rana Pratap Singh, Lakhveer Singh, M.S. Swaminathan, Mohammad J. Taherzadeh, S.K. Tewari, Indu Shekhar Thakur, Mats Tysklind, Venkata Krishna Kumar Upadhyayula, Fernanda Valadares, Björn Vinnerås, Quan Wang, Yunpu Wang, Sumeth Wongkiew, Dalia Yacout, Pooja Yadav, Zengqiang Zhang, Junchao Zhao, and Nan Zhou

Published

2020