Chemical engineering paper presentation: Bio-oxidation ppt

Title: Bio-oxidation paper presentation.
Department: Bio-technology, Chemical engineering.
Can be used for: Paper presentations, ppts, seminars, projects development materials.

This paper attached here was collected from the internet sources and found to be interesting. Students who are willing to present a good paper during their education period can have a look at this paper presentation on Bio-Oxidation. This paper presentation will be more suitable for chemical engineering students and Bio-tech engineering students than any other branch. We have attached two files together with this main download, as supporting documents. It might help you engineers as well.

Sample from the attached paper presentation material: 
SUMMARY
• Smaller Footprint than Conventional Biofilters
• Lower Capital Costs
• Significantly Lower Energy Requirements
• Less maintenance, fewer moving parts
• Treats combined air streams of H2S AND VOC’s
• No Combustion By-Products (NOx, SOx)
• Significantly lower CO2 generation than incineration-type
technologies
• Odor Reduction obtainable in <24 hours
• Systems designed to achieve desired removal efficiencies
• Sustainable Technology

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On Bio-oxidation here: http://goo.gl/o4UWy

Electronics project: Electronic stethoscope designing.

Title: Electronic stethoscope designing project
Department: Bio-tech engineering, Electronics projects, ECE, Biotech.
Can be used for: Mini projects, engineering projects, electronics projects.

This project was requested/students  by an engineering student through the request form for project. The project topic is a good suggestion for mini engineering projects for electronics engineering /  Biotech engineering students. The basis of this project is in the topic "Stethoscope", a steth is an acoustic medical device for auscultation, or listening to the internal sounds of an animal body. Bending electronics and this old device will be very interesting. So this project will be provide a good impression while presentations.

Sample from this electronic project: The circuit is optional and has a gain of 71 to drive the bi-colour LED. This is a 1/4W power amplifier IC with built-in biasing and inputs that are referred to ground. It has a gain of 20. It can drive any type of headphones including low impedance (8 ohms) ones.

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Details about the Electronic stethoscope designing project: http://goo.gl/WJTaV

Paper presentation on Biochip for security

Abstract of this biometric paper-presentation:
“A single electronic card may replace everything in your wallet including.,
. . . your cash
. . . your credit cards
. . . your ATM card
. . . your ID cards
. . . your insurance
. . . and your life
FUTURE One card, or one chip, with your life on it.”
“Biochips”-The most exciting future technology is an outcome of the fields of Computer science, Electronics & Biology. Its a new type of bio-security device to accurately track information regarding what a person is doing, and who is to accurately track information regarding what he is doing,  and who is actually doing it. It’s no more required with biochips the good old idea of remembering pesky PINs, Passwords, & Social security numbers .No more matters of carrying medical records to a hospital, No more cash/credit card carrying to the market place; everything goes embedded in the chip…. Every thing goes digitalized. No more hawker tricks on the internet….! Biochip has a variety technique for secured E-money transactions on the net. The power of biochips exists in capability of locating lost children, downed soldiers, and wandering Alzheimer patients.
Our contributions to this paper lie in the aspects of
“Implementation of Glucose detector in Biochips”
“Implementation of Oxygen sensor in Biochips”
“Implementation of Blood pressure sensor in Biochips”
“Proposal of Solution for the typical theft problem faced by the
Biochips”

The four contributions have been discussed in detail with the proposed principles for implementation of the concepts.

A simple ID chip is already walking around in tens of thousands of individuals, but all of them are pets. Companies such as AVID (Norco, Calif.), Electronic ID, Inc. (Cleburne, TX.), and Electronic Identification Devices, Ltd. (Santa Barbara, Calif.) sell both the chips and the detectors. The chips are of the size of an uncooked grain of rice, small enough to be injected under the skin using a hypodermic syringe needle. They respond to a signal from the detector,
held just a few feet away, by transmitting out an identification number. This number is then compared to database listings of registered pets. The Biochip tagging for humans has already started…Rush out for your tag!

Biotechnology paper presentations

Hello engineers,

This is an paper presentation helper. For sometime i find people interested in biotechnology struggling to get there informations and study materials online. And the main thing i found in these students is that they all are wanting trendy paper presentation and seminars. Preparing such paper presentation for every individual is tougher from a point but even such prepared stuff are not satisfying the need of our engineers because of these drawbacks. we are trying to upload some raw data and information in PDF format. Try to use them and create your own presentations. 

Sample of the materials: 

Even prior to the emergence of specific applications, biotechnology is restructuring the way we think, the values we live by, and our imaginings. The new DNA language is becoming a basic mode of talking about the living world, which includes us.

The DNA language has the power and the capacity to wipe out the history of the problems we suffer and to obscure what really needs to be done to deal with them. This is not an accident. The real achievement of the new biotechnologies is that social control is so much a function of the fragmentation of living systems. What you are imagining is choice, but what is happening is control. You may have u read about pharmaceutical companies investing in the human genome project.

All the scientists have done is DNA screening of the human genome, but converting those bits of our life into DNA language becomes in effect the creation of life, and those fragments are made available by appropriation for the pharmaceutical industry, which is already starting to bid for patents and control.

These are just raw data PDF collected from various online sources , on Biotechnology! Try to use these information to create your presentations. If you still need and help on topic selection and paper creation. 

Download Biotechnology paper presentations here: http://www.mediafire.com/?hwsnj13zdu7gfm5

Send us your paper presentation requests here

Paper presentation: Artificial vision

Blindness is more feared by the public than any other ailment. Artificial vision for the blind was once the stuff of science fiction. But now, a limited form of artificial vision is a reality .Now we are at the beginning of the end of blindness with this type of technology. In an effort to illuminate the perpetually dark world of the blind, researchers are turning to technology. They are investigating several electronic-based strategies designed to bypass various defects or missing links along the brain's image processing pathway and provide some form of artificial sight.

This paper is about curing blindness. Linking electronics and biotechnology, the scientists has made the commitment to the development of technology that will provide or restore vision for the visually impaired around the world. This paper describes the development of artificial vision system, which cures blindness to some extent. This paper explains the process involved in it and explains the concepts of artificial silicon retina, cortical implants etc. The roadblocks that are created are also elucidated clearly. Finally the advancements made in this system and scope of this in the future is also presented clearly

Download this here: http://paperpresentation-seminars.blogspot.com/2010/04/artificial-vision-abstract-blindness-is.html

Bio-inspired Robotics

About this robotics paper-presentations : (Bio-inspired Robotics)

  Our approach is characterized with a strong inclination for biological inspiration in which examples in nature — social insects in particular — are used as a way of designing strategies for controlling mobile robots. This approach has been successfully applied to the study of task, namely, Ant’s algorithms used in computer networks for routing data between Routers.
This phenomenon found in ants to derive the necessary behaviors for accomplishing this task. We study a species of ant known to possess this capability.

“bio-Computing” is a way “to understand how the relation of brain, body and environment produce behavior, to clarify the essential problems posed, and to devise and test hypotheses under realistic conditions” social insects were capable of successfully navigating and acting in the face of uncertain and unpredictable environments. It was reasoned that if a single robot required complex systems and techniques in order to perform in a reliable manner, then perhaps intelligent systems could be designed with many “simpler” robots using a minimalist approach to sensing and actuation; where group behavior is an emergent property and control is decentralized. Could system reliability be achieved by trading complexity for redundancy coupled with ”randomness” used to explore possible solution paths, which are often traits found in social insect colonies? May be, biology can teach us a thing or two about engineering swarms of simple interacting robots, and the theoretical foundations developed to model and explain these behaviors found in insect colonies can be used to underpin a more rigorous approach to collective robot design. Nature has already demonstrated the feasibility of this approach by way of the social insects.

>>CLICK HERE, Download this Paper presentation<<

Paper presentation on Bio-fuels

SOLUTION TO UNABATING INCREASE OF ENERGY CONSUMPTION AND INEFFICIENT HANDLING OF RESOURCES.  TREND IN MINITURIZATION AND PORTABILITY OF COMPUTING AND COMMUNICATION DEVICES. THESE ENERGY DEMANDING APPLICATIONS REQUIRE SMALL, LIGHT POWER SOURCES THAT ARE ABLE TO SUSTAIN OPERATION OVER LONG PERIODS OF TIME, PARTICULARLY IN REMOTE LOCATIONS  SUCH AS SPACE AND EXPLORATION.

INCREASING NUMBER OF INPLANTABLE ELECTRICALLY-OPERATED DEVICES (e.g. pacemakers). THESE ITEMS NEED POWER SUPPLIES THAT WILL OPERATE FOR AN EXTREMELY LONG TIME. IDEALLY, THESE DEVICES WOULD TAKE ADVANTAGE OF THE NATURAL FUEL FOUND IN THE BODY, THUS WOULD CONTINUE TO DRAW POWER AS LONG AS THE PATIENT LIVES.

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Paper presentation: Bio-fuels

Bio-fuels. As the world now awakens to the dire consequences of its continued reliance upon petroleum-based fuels, and in its mad rush to develop alternatives to such fuels, powerful consequences are being encountered in the development new biofuels to replace petroleum.  With the development of the “first generation” biofuels, corn ethanol and biodiesel, powerful consequences are being encountered, from escalation in food prices throughout the world, to mass depletion of water supplies used in the production of such biofuels. 

The next generation of biofuels now being sought after is “cellulosic ethanol” which is believe to be a solution to many of these problems caused by the first generation of corn ethanol biofuels.  However, the realization of an economic pathway to “cellulosic ethanol” still eludes the scientific community and is said by many experts to still be five to ten years away from realization, a period of time which may ultimately be too late. 

This Article explores an “interim generation” of biofuels which may have been overlooked, and that is a generation which hopefully learns from the mistakes of the first generation of biofuels and purports to solve many of the problems now faced by the current generation of biofuels, before it is too late!

 

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Paper presentation bioinstrumentation

So what is the temperature resolution?
In this case, use statistical analysis, given a % confidence we want to achieve of correctly
being able to distinguish two different temperatures. If the distribution is assumed to be
Gaussian, we can use a multitude of test to determine the resolution (students t-test is
easy).
Precision- is the number of distinguishable alternatives from which the result is selected.
In signals that have been A/D converted, this can be no more than 2^ # bits in the
converter.
Range = resolution * precision
Ex. A digital thermometer
Range: 0 to 99.9°C
Display is 3 digits XX.X, so assume resolution is 0.1 °C
Precision is 1000, or about 10 bits
Please note: Webster has another definition of precision (the quality of obtaining the
same output from repeated measurement of the same input). The word “precision” can be
used in both cases. In this class, I am most concerned with distinguishable alternatives.
Reproducibility- is the ability to give the same output for equal inputs over some period
of time (full range or standard deviation).
Specificity- is the ability of an instrument to respond to the desired input only. Signal-tonoise
ratio is one measure. The number of false positives in a binary system is another.

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bioinstrumentation: Paper presentation

Some Definitions:
Measurand: the physical property being investigated Sensor: converts the measurand into an electrical signal
Analog processing: conditions the signal in the analog domain, typically amplification, electrical isolation, filtering
A/D: analog to digital conversion at a specified sampling frequency and precision
Digital processing: conditions the signal in the digital domain, typically, filtering, compression,  enhancements such as digital zoom and contrast enhancement 
Display: organizes the information in a manner understandable to the user, the user interface
Storage: e.g. disk or paper output
D/A: converts a digital signal (based on some reaction to the original analog signal) back
to the analog domain
Actuator: converts and electrical signal into a mechanical action.
Example: A treatment system that controls a laser based on tissue damage. What are the
various pieces in this system?
More definitions, based on operation of instrumentation
Direct: a measurement of the quantity of interest (e.g. measure finger length)
Indirect: a measurement of a quantity related to the quantity of interest (e.g. measurement
of an X-ray of a finger)

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Bioinfomatics

About this computer paper-presentations : (bioinfomatics)

    Biometrics is the technique of using unique, non-transferable, physical characteristics, such as fingerprints, to gain entry for personal identification. This replaces pin codes and passwords, which can be forgotten, lost or stolen. Biometric IDs cannot be transferred.

Biometrics are best defined as measurable physiological and / or behavioral characteristics that can be utilized to verify the identity of an individual. They are of interest in any area where it is important to verify the true identity of an individual. Initially, these techniques were employed primarily in specialist high security applications, however we are now seeing their use and proposed use in a much broader range of public facing situations. Biometrics measure individuals' unique physical or behavioral characteristics to recognize or authenticate their identity. Common physical biometrics include fingerprints; hand or palm geometry; and retina, iris, or facial characteristics. Behavioral characters include signature, voice (which also has a physical component), keystroke pattern, and gait. Of this class of biometrics, technologies for signature and voice are the most developed. Now a days the biometrics technology is preferred by many organization for the security purpose and in coming future we will see the same technology in ATM machine, telephone transactions, internet transactions and so on.

Biometrics are not a future technology, they are a current technology, with a bigger role in the future. Biometrics will not to replace passwords, swipe cards, or pin numbers etc, rather work with them in enhancing security in a simple, reliable, and cost effective way.