This document contains a resume for Arun Krishna providing personal details such as name, date of birth, contact information, education history, skills, work experience, and objectives. Arun Krishna has a bachelor's degree in electronics and communication science and seeks to apply his knowledge and skills to help organizations grow. His work experience includes 8 months as part of an Akshaya project in Kerala resolving IT issues and 6 months as a desktop support engineer.
Fiber Society Conference Ads Vapor 2010Vinit Singh
Oil Absorbing and Vapor Retaining Fibrous Mats
Vinitkumar Singh1, Utkarsh Sata1, Sudheer Jinka1, Muralidhar Lalagiri1, Amit Kapoor2 and Seshadri Ramkumar1 1Nonwovens and Advanced Materials Laboratory, Texas Tech University, Lubbock, TX 2First Line Technologies, Chantilly, VA seshadri.ramkumar@tiehh.ttu.edu
ABSTRACT
Recently, human health and environmental issues are surfacing up in the Gulf of Mexico due to toxic gases associated with the deepwater horizon rig explosion. The National Oceanic and Atmospheric Administration recently endorsed a research study which shows the presence of polycyclic aromatic hydrocarbons (PAHs) at depths up to 400 meters below the ocean surface. Even though these PAHs are detected at very low concentrations, they are known to cause cancer and other health problems over prolonged exposure. There have been 143 health related cases in Louisiana due to the oil spill exposure. Conventional polypropylene based nonwovens are known to have oil absorbing capability. However, with detection of subsurface plumes that contain volatile organic compounds (VOCs) such as benzene, toluene and xylene, it is important to have remediation tools which can not only absorb the oil but also adsorb the toxic vapors associated with it. Recent research at Texas Tech University has shown that absorbing mats made from raw cotton and activated carbon fabric were able to provide solution to this complex and uncertain issue. Fundamental aspects on the absorption and adsorption characteristics of mats will be dealt in the presentation.
Experimental results from our lab show that each cotton-carbon composite is able to absorb 15 grams of motor oil. This result matches with the oil absorption capacity of commercially available polypropylene sorbents. Additionally, experiments have been performed on crude oil obtained from an oil pump in Texas.
FIGURE 1. Initial Field Test of Cotton-Carbon Nonwoven in Grand Isle, LA (Credit First Line Technology)
Initial field study undertaken on the oiled shores of Grand Isle, Louisiana shows that the three layered cotton-carbon composite was able to absorb viscous and semisolid oil (see Fig.1). In addition, lab tests have shown that the middle carbon layer of the cotton-carbon composite, when challenged with vapors of VOC toluene, can adsorb this VOC up to 25 % of the carbon layer’s weight. This nonwoven composite gives an edge over synthetic sorbents as it allows for an environmentally safe, biodegradable technology that is perfect for the expanding effort to protect and decontaminate coastal lands and wildlife. This presentation will focus on the development, oil absorption capability evaluation and vapor adsorption/retention studies of the three layered cotton-carbon nonwoven composite.
REFERENCES
[1] Ramkumar, SS; Love, AH; Sata, UR, et al. “Next-Generation Nonparticulate Dry Nonwoven Pad for Chemical Warfare Agent Decontamination,” Industrial & Engineering Chemistry Research, Vol., No. 47, 24, 2008, 9889-9895.
Fiber Society Conference Ads Vapor 2010Vinit Singh
Oil Absorbing and Vapor Retaining Fibrous Mats
Vinitkumar Singh1, Utkarsh Sata1, Sudheer Jinka1, Muralidhar Lalagiri1, Amit Kapoor2 and Seshadri Ramkumar1 1Nonwovens and Advanced Materials Laboratory, Texas Tech University, Lubbock, TX 2First Line Technologies, Chantilly, VA seshadri.ramkumar@tiehh.ttu.edu
ABSTRACT
Recently, human health and environmental issues are surfacing up in the Gulf of Mexico due to toxic gases associated with the deepwater horizon rig explosion. The National Oceanic and Atmospheric Administration recently endorsed a research study which shows the presence of polycyclic aromatic hydrocarbons (PAHs) at depths up to 400 meters below the ocean surface. Even though these PAHs are detected at very low concentrations, they are known to cause cancer and other health problems over prolonged exposure. There have been 143 health related cases in Louisiana due to the oil spill exposure. Conventional polypropylene based nonwovens are known to have oil absorbing capability. However, with detection of subsurface plumes that contain volatile organic compounds (VOCs) such as benzene, toluene and xylene, it is important to have remediation tools which can not only absorb the oil but also adsorb the toxic vapors associated with it. Recent research at Texas Tech University has shown that absorbing mats made from raw cotton and activated carbon fabric were able to provide solution to this complex and uncertain issue. Fundamental aspects on the absorption and adsorption characteristics of mats will be dealt in the presentation.
Experimental results from our lab show that each cotton-carbon composite is able to absorb 15 grams of motor oil. This result matches with the oil absorption capacity of commercially available polypropylene sorbents. Additionally, experiments have been performed on crude oil obtained from an oil pump in Texas.
FIGURE 1. Initial Field Test of Cotton-Carbon Nonwoven in Grand Isle, LA (Credit First Line Technology)
Initial field study undertaken on the oiled shores of Grand Isle, Louisiana shows that the three layered cotton-carbon composite was able to absorb viscous and semisolid oil (see Fig.1). In addition, lab tests have shown that the middle carbon layer of the cotton-carbon composite, when challenged with vapors of VOC toluene, can adsorb this VOC up to 25 % of the carbon layer’s weight. This nonwoven composite gives an edge over synthetic sorbents as it allows for an environmentally safe, biodegradable technology that is perfect for the expanding effort to protect and decontaminate coastal lands and wildlife. This presentation will focus on the development, oil absorption capability evaluation and vapor adsorption/retention studies of the three layered cotton-carbon nonwoven composite.
REFERENCES
[1] Ramkumar, SS; Love, AH; Sata, UR, et al. “Next-Generation Nonparticulate Dry Nonwoven Pad for Chemical Warfare Agent Decontamination,” Industrial & Engineering Chemistry Research, Vol., No. 47, 24, 2008, 9889-9895.
View our MVNO SERVICE PRESENTATION for an easy read on some of the MVNO services we offer
★ MVNO/MNO NEGOTIATIONS
✓ Negotiation of MVNO wholesale agreement
✓ Negotiation of additional terms
✓ Contract review and advice
★ PRODUCT AND SALES PLANNING
✓ Product/Service Planning
✓ Market Segmentation and data
✓ Market forecasts and modelling
✓ Marketing Planning and costing
★ DEVELOPMENT OF BUSINESS PLAN
✓ Corporate Strategy
✓ Financial planning and modelling
✓ Investment analysis
✓ Operation planning
✓ Product and Marketing
★ LICENSE APPLICATION
✓ Advise and experience in relation to submitting for MVNO license
✓ Business planning and modelling with a focus on the application
✓ Preparation of License Application documentation as required by the telecom regulator
★ MVNO WORKSHOP
For more information please visit: www.yozzo.com
1. Address for Communication:
Kayyalakkakathu h
Kadammanitta po
Pathanamthitta
Kerala
689649
Current Address
No 19,GB Palaya
Behind St Marys School
Near Amulya Bar
Sriramnagar
Bangalore 5668
Personal profile:
Date of Birth : 14-11-1992
Gender : Male
Nationality : Indian
Father’s Name :Surendran Nair
Mother’s Name: Bindu
Marital Status : Single
Professional Skill Set:
Ability to learn new
things
Good Team Player
Ability to motivate
people
ARUN KRISHNA
E-mail : arunkrishna09@gmail.com
Mobile : 9742570523/9847833243
Objective
To prove myself worthy and energetic in a progressive organization
that gives me scope to apply my knowledge and skills towards success and
Growth of the organization.
Academic Record
2010-2013 B. Sc (Electronics and Communication Science) with 80%
University Of Madras (Hindustan college of Arts and Science, Padur)
2008-2010 Higher Secondary with 69%,
IHRD Technical Higher Secondary School , Kerala
2007-2008 Matriculation with 76%
Govt. H. S. S , Kadammanitta, Kerala
TECHNICAL CERTIFICATIONS
Computer Hardware And Networking
Practical Training Gained.
Practical Knowledge of Basic programming instructions
Microprocessor 8085
Computer Service
Embedded C Programming
Computer Skills
Tools : MS Office, libero Office
Operating System : Windows XP, Windows 7,Windows 8
2. Hobbies:
Writing Poems
Listening Music
Playing Volley ball
Languages Known:
English
Malayalam
Tamil
Hindi
Project Work:
Avoid Mobile Accidents While Driving Using Embedded System
Extra Curricular Activities
Was Volunteer in many college Functions.
College Council Member (Sports Secretary, 2012-2013)
Have participated in zonal matches of Volley Ball
Actively participated in NSS Programs
Strengths
Adaptability
Learning Attitude
Comprehensive problem solving abilities
Work Experience:
8 month Akshaya Project, established by Government of Kerala
Resolving desktop software issues
O S installation
Printer installation and troubleshooting.
Resolving desktop hardware issues etc.
Desktop Support Engineer in 3i infotech, Bangalore From October
2013 to May 2013
Resolving desktop software issues
O S installation
Printer installation and troubleshooting.
Resolving desktop hardware issues etc.
Mail Configuration
ARUN KRISHNA