Dr.K .Suresh scite author profile

In this paper an empirical model of the air breathing (ABFC) is proposed to investigate the cell voltage verses current density characteristics and harnessing of maximum energy from natural resource whenever it’s available. The power electronic converters role is important in between source and load. Proper controller can switch the converter in the desired time and improve the system performance and stability. The mathematical model of the ABFC is built in MATLAB/Simulink. The proposed system also has boost converter, bidirectional DC-DC converter and inverter for grid and energy integration. The boost inverter/buck rectifier in this system is controlled by ANFIS controller is for better output, boost and bidirectional DC-DC converters are controlled by PID controller in closed loop. Overall operations are based on modes main controller, which control the system operation in different modes. Any variations happening in the input, storage and load parameters, the controller changes the mode and operates the system in effective way.

show abstract

Design and Modeling of Modified Savonius Highway Wind Turbine

Venkatesh¹,

.Suresh²,

Babu³

2018

IJET

View full text Add to dashboard Cite

Abstract— in this paper, the design and modeling of highway wind mill using savonius wind turbine has been done. The highway wind mill is nothing but the wind mill kept in the mid of the road so that , this wind mill utilize the fast moving wind which is produced from fast moving vehicles travels in the high way. In this work the required wind data have been collected in highways and based on these values the design and fabrication have been made. The output of the wind turbine has been given to the power converter in order to get the constant power output.

show abstract

Technology Challenges in Deep Water Subsea Well Intervention - A focus on Equipment Design Advancements

.Suresh

Manikandan

Rajashree

2015

View full text Add to dashboard Cite

Due to the current challenging environment in Oil and Gas industry, cost effective hydrocarbon recovery from Subsea Wells is mandating innovative methods in equipment design construction and qualification. Different types of intervention systems are required based on the issue being addressed, the intervention technique being used, depth of water, geographical locations, vessel types and pressure/temperature conditions. The industry is increasingly utilizing well access solutions such as Open water riser system and Light Well Intervention System not only for equipment installation, but also to improve efficiency of operations, to facilitate life-of-field hydrocarbon production enhancement and restorative intervention techniques. Suppliers and Operators of subsea intervention system need to rise to the challenge of meeting increasingly stringent industry standards and customer requirements. This necessitates but is not limited to the importance of utilizing effective seal design, robust barrier design, advanced materials and safety rated control systems with rigorous design and qualification test validation.The more demanding requirements of the move to deeper and deeper water and higher pressures and temperatures have led to enormous challenges both at the component and system level. This is driving the incorporation of the latest technology on both metallic and non-metallic seals for high temperature application. This is particularly relevant in valve qualification for field producing hydrocarbons with high levels of sand. Size and weight reduction design strategies for equipment destined to be used in deep water allows for effective selection of existing rigs and vessels of opportunity. Advanced design validation including 3D printing of components has resulted in more accurate and predictable results for Component interactions, Strength Integrity and Fatigue Capacity. Thermal analysis used for prediction has allowed for prevention of hydrate formation which has proved essential to validation of the intervention system performance.To qualify subsea components in deep water, technology enhancements, the latest manufacturing techniques and supply chain approaches, welding techniques etc. are critical to success. Deepwater System challenges include communicating and controlling the well and Xmas tree remotely through an Installation and Workover Control System. This can be resolved with design of optimized safety-rated electro-hydraulic system along with a robust sensor system which provides a safe and reliable method for hydrocarbon containment during critical well intervention operations. This paper will depict some of the latest design techniques required to deliver advanced equipment to the Intervention market. The areas addressed will be: Identification of the technology challenges, providing right solution, usage of design tools for equipment design advancement and managing risk. Reference API 17G -Recommended Practice for Completion/Workover Risers Deep water well intervention and Fluid selection -Merve Dul...

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Dr.K .Suresh

Air-line explosions and low-flying drills

High Frequency Link Power Conversion System for Fuel cell Applications

Design and Modeling of Modified Savonius Highway Wind Turbine

Technology Challenges in Deep Water Subsea Well Intervention - A focus on Equipment Design Advancements

Contact Info

Product

Resources

About