Your search keyword '"null Sandeep"' showing total 6 results

1. Modeling and analysis of thermal photovoltaic energy generator using COMSOL multiphysics

Author

null Manish Kumar Sharma, null Ashish Kumar Jain, and null Sandeep Gupta

Subjects

Geography, Planning and Development, Management, Monitoring, Policy and Law

Abstract

Because of to their versatile energy choice alternatives, immovable elements, and opportunity for effective energy generation, thermophotovoltaic techniques have a vast range of achievable applications. For illustration, these devices could help us to offer convenient energy. Nevertheless, first enhance the performance of thermo-photovoltaic cell unit devices along with decrease system costs and system temperatures. To achieve such objectives, we use simulation to evaluate and improve their thermo-photovoltaic cell unit models. This research regarded as the different alternatives of enhancing system operation via successful deal with the operating circumstances. It examined solutions of the system formation for much better system performance and energy output and at bare minimum quantity working expenses. The number of mirrors and photovoltaic devices for employ in the construction had been set at eight as traditional for the procedure. A novel energy technique was constructed and was used to reproduce the energy effectiveness of the thermal photo voltaic modules. The boundaries situations utilized for the materials involved were defined and the appropriate physics utilized in the analysis of various operating circumstances that affected the system effectiveness. It is possible to reduce the costs of PV systems by using small area PV cells, which require some special mirrors to focus radiation onto photocells. Based on COMSOL Multiphysics (version 5.5) as a commercial FEM package, this paper develops a basic thermo-photovoltaic cell unit model. A variety of options examined for optimizing the operation of the system by controlling operating conditions effectively. For a two-dimensional system, it was demonstrated the correct physics to apply when studying various operating conditions which affected system performance.

Published

2023

2. Designing of charging station by renewable source of energy and by conventional ac system: A case study on electric vehicle

Author

null ISHWAR SINGH, null ASHISH KUMAR JAIN, and null SANDEEP GUPTA

Subjects

Geography, Planning and Development, Management, Monitoring, Policy and Law

Abstract

Today it is very necessary to develop different types of system used for storage and energy conversion devices because human population is increasing rapidly and their dependency on energy based gadgets for their survival. So for this purpose there is a greater need of devices which may be operated on either conventional energy sources or non-conventional energy sources but for environment friendly purpose use of solar energy becomes very popular because of diminishing fossil fuels because of concerns of greenhouse emissions.

Published

2023

3. Simulation based analysis of the partial shading at different locations on polycrystalline PV array

Author

null BHUPENDRA SINGH, null ASHISH KUMAR JAIN, and null SANDEEP GUPTA

Subjects

Geography, Planning and Development, Management, Monitoring, Policy and Law

Abstract

Photovoltaic (PV) technologies have definite environmental advantages over other power generation techniques. No matter many technologies are used, PV power generation emits no emissions. Solar cells and PV modules are produced using a variety of manufacturing techniques, and as with any energy source or product, there are no dangers to the environment, human health, and safety associated with these processes. Like any other device, even PV cells and modules go under degradation due numerous reasons. Shading is one such mode of degradations which directly impact the output of a PV system. Along with that the output power drastically get impacted. There is a drop in the output power and the electrical characteristics gets distorted. During shading condition the characteristics curves,Power - Voltage and Current-Voltage curve are seen with unusual peaks which is the exact reason for the presence of shading in the module. The paper presents the various impact on the curves which confirm the presence of power loss due to shading.

Published

2023

4. Procedure for mix designing used for steel fibre reinforced self-compacting concrete

Author

null Sandeep Kumar Choubey and null C.K. Niraj

Subjects

General Earth and Planetary Sciences, General Environmental Science

Abstract

This work focuses on a methodical design process for developing self-compacting concrete (SFRSCC) using steel fibre reinforcements. The objective is to create a self-consolidating concrete that has the double advantage of self-consolidating characteristics and composite toughness. Experimental modelling involved building the mortar phase with manufactured sand (M-sand) as fine aggregate utilising a systematic mix design process based on the particle packing idea. Optimisation of aggregates was determined using the packing density idea and slump cone research. By conducting a paste consistency test, cement and ground granulated blast furnace slag (GGBFS) powder combinations were chosen. Finally, the amount of superplasticizer was determined based on Marsh cone experiments and the percentage by volume of steel fibres determined by slump flow research. The addition of steel fibre dosage impacts the workability of both standard and high strength concrete, and the fresh properties emphasised the necessity to maintain a large paste volume for increased workability. On the basis of the recommended mix design technique using M-sand, self-compacting concrete with a maximum strength of 70MPa was manufactured. On the other hand, experimental studies on the fresh and hardened properties of recommended self-compacting steel fibre concrete mixes were presented. In addition, test findings demonstrated the viability of employing M-sand as a replacement for river sand in its entirety.

Published

2023

5. Effect of air-fuel ratio and pressure ratio on the exergetic performance of combined cycle gas turbine plant components

Author

null Sandeep Kumar and null Ashutosh Mishra

Subjects

Geography, Planning and Development, Management, Monitoring, Policy and Law

Abstract

The performance of a combined cycle gas turbine power plant depends on multiple operating parameters, which are influential in distinct ways. These parameters are classified as gas turbine parameters and steam turbine parameters. This paper deals with the influence of two gas turbine operating parameters, i.e., pressure ratio and air-fuel ratio. The 2nd law of thermodynamics has been taken into consideration along with energy analysis to measure the performance of several components of a combined cycle gas turbine plant. Therefore, a comprehensive exergy analysis for each element and the plant has been carried out to overserve the trend of the given range of aforementioned parameters. It is observed from the results that exergy destruction increases in the compressor at a higher-pressure ratio if the compressor is subjected to increased airflow, but exergetic efficiency remains unchanged. Moreover, a similar increment has been observed in the combustion chamber, but the rate of change varies along with the increase in the Air-fuel ratio. For the lower pressure ratios (5-10), the exergy destruction rate for the steam turbine decreases along with increasing in air-fuel proportion, but the effect becomes nearly opposite for the higher-pressure ratios.

Published

2023

6. Overview of nano enabled sensor for analysis of explosive substances

Author

null Sandeep K Vaishnav, null HS Bhawara, and null Rajesh Mishra

Subjects

General Earth and Planetary Sciences, General Environmental Science

Abstract

Threats of armed conflict and terrorist attacks present difficult challenges for defense agencies around the world and are an increasing source of worry for the public and security-conscious policymakers. The environmental monitoring of residue or discarded explosives in soil, as well as the detection of ultra-low levels of explosive compounds in remote areas or under extreme conditions for anti-terrorist activities, continue to pose significant challenges. Most explosives produce very little vapors, making it difficult to detect them with common techniques for other compounds. Due to a number of factors, including the large variety of explosives substances, the enormous number of deployment methods, and the dearth of low-cost sensors with high sensitivity and selectivity makes explosive detection very complicated and expensive task. To defeat explosives-based terrorism, sensors must have high sensitivity and selectivity as well as the capacity to produce and deploy them at lower costs. Nanotechnology-based sensors have an excellent possibility of meeting all the criteria for a successful approach to explosive trace detection. The design and analytical capabilities of explosive detection systems employing nanomaterial as signal transducers are covered in this overview. The review article also discusses the importance of nano-enabled technologies for the explosive detection in security applications, gives background on the technology, and identifies other issues that need to be resolved.

Published

2022