Ch. Mohammad AkramAcharya Nagarjuna University · Department of Mechanical Engineering
Ch. Mohammad Akram
B.Tech; M.Tech; (Ph.D.)
About
23
Publications
2,748
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Introduction
I’m currently a Doctoral Researcher.
a former Assistant Professor (Dept of Mechanical Engg.) & a former Mechanical (Design) Engineer. My Current Research Focuses on Solar - Thermal Applications; Desalination, Renewable Energy; Bio fuels;
Design and Modelling of Thermal Systems, Artificial Intelligence; Cyber-Physical Energy Systems.
Additional affiliations
September 2019 - September 2022
Education
July 2022 - July 2022
Acharya Nagarjuna University College of Engineering and Technology
Field of study
- Mechanical Engineering
May 2017 - April 2019
Publications
Publications (23)
Radio-tracking technology, originally designed for wildlife monitoring and conservation, has found its way into agricultural applications. Its potential to improve resource efficiency, monitor livestock, and manage crops offers exciting prospects for the future of farming. This review discusses the application, prospects, and challenges of radio-tr...
Generative models have revolutionized the field of autonomous systems, offering unprecedented capabilities in data synthesis and task automation. This chapter delves into the integration of generative models within autonomous systems, exploring their profound impact on enhancing system functionalities and adaptability. Key considerations include th...
The scarcity of water has grown into a significant obstacle to ecosystem preservation, food production for the expanding population, and social security and health maintenance. Our ecology is also threatened by water logging and salinity in numerous canal commands, seawater intrusion along the coast, wetland drying up, low stream flows, etc. Water...
Generative models have revolutionized the field of autonomous systems, offering unprecedented
capabilities in data synthesis and task automation. This chapter delves into the integration of generative
models within autonomous systems, exploring their profound impact on enhancing system
functionalities and adaptability. Key considerations include th...
Nanomaterials exhibit unique physicochemical properties that make them promising for diverse agricultural applications, including crop protection, nutrient delivery and soil remediation. However, the efficacy of nanomaterials in agriculture is influenced by various factors such as their composition, size, surface characteristics, as well as the tar...
A field experiment was conducted in Rabi 2018-19 to look at the water requirements and above-ground biomass partitioning in mustard crops growing both rainfed and irrigated. The amount of biomass produced above ground was significantly influenced by the temperature environment and the crop's efficiency in using water during the growing season. The...
Plant diseases are a huge challenge and threat to world food production. However, proficient plant disease diagnosis and management techniques can help to reduce the risks of economic loss and potential famine. In recent years, artificial intelligence has shown great potential and has become a hot research topic for the diagnosis and management of...
The development of efficient and cost-effective solar cells is
crucial for expanding access to sustainable energy, especially in off-grid regions. Nanomaterials have emerged as promising components for enhancing the performance of solar cells. This article explores the application of various nanomaterials, including quantum dots, carbon nanotubes...
The global population is projected to reach 9.7 billion by 2050,
necessitating a substantial increase in agricultural productivity to ensure food
security [1]. However, crop losses due to pests and diseases pose a major
challenge, with an estimated 20-40% yield reduction worldwide [2].
Conventional chemical pesticides have Abstract (110 words):...
Renewable energy sources like solar and wind are
becoming increasingly important for sustainable energy
production. However, their intermittent nature poses challenges
for grid integration. Nanomaterial-based energy storage devices
offer a promising solution to address these challenges. This article
provides an in-depth review of nanomaterials...
The escalating global concern over climate change and depleting fossil fuel resources has prompted a paradigm shift towards renewable energy sources. This review paper systematically examines the recent advancements, challenges, and future prospects within the realm of the Renewable Energy Revolution. A comprehensive analysis of key renewable energ...
The integration of cyber-physical systems (CPS) with energy infrastructure has the potential to revolutionise the way we generate, distribute and consume energy. CPS enables the monitoring and control of energy systems in real-time, and allows for the integration of renewable energy sources and energy storage management. This research aims to explo...
This research looks at how artificial intelligence may be incorporated into wearable robots to make them more functional. Some of the foundational principles of artificial intelligence and robotics are introduced as well. Artificial intelligence allows for the development of efficient and effective solutions to a wide variety of practical problems....
The effectiveness of a traditional solar still is highly dependent on the quantity of energy received by the solar still's bottom surface. Thus, expanding either the absorption capacity of the basin surface or the rate of energy transfer to the saline water would then result in an enhancement in potable water yield levels. Through the coupling of a...
Today our society needs more energy for day-to-day activities due to rapid globalization and industrialization. In order to minimize the stress and dependency on fossil fuel, the most sustainable way is to harness suns energy. Solar energy is characterized by low cost, environment friendly, does not require frequent maintenance and most importantly...
This paper deals a principle component analysis (PCA) of B-H-R-P transmission model of COVID-19.Multivariate principle component analysis estimates the parameter values of this network model and investigated 25 parameter values.We calculated previous and current parameter values from COVID-19 data. The new parameters used in Mathematical modeling o...
In
this invention, Single basin solar still made up of a basin with a carbon fiber composite container in black color with copper tube and
fins contains brackish or sea water. This is enclosed in a completely airtight surface formed by a transparent glass cover. Incident
solar irradiance passes through the transparent cover and is absorbed by th...
In Thermodynamics, a heat engine system converts the thermal or heat energy into mechanical energy. The distributed energy
generation is the growing demand due its remarkable advantages in the aspects of the flexibility, reliability and minimum loss of
transmission. One of distributed energy source, Thermoelectric Generator which is only the heat...
IOT (Internet of Things) devices are small devices which can be located at
any place and then this devices will sense data and send to require
destination by using internet connections. This devices are not monitored by
humans and can be tampered physically (manipulating internal parts to
sense wrong data or to consume heavy energy) and it can be a...
In this study, experiments are carried out on a single slope single basin passive solar-ground still, which exploits ground heat for the continuation of the fresh water production during late evening hours, for different depths of the saline water. An attempt has been made to utilize the maximum amount of solar energy and to alleviate the heat loss...