electronic nose ppt

Presented by:

SONU YADAV

EC 3rd YEAR

ROLL NO.123633096

CONTENTS

• Introduction(e-nose), e-sensing,

• Definition: electronic nose(e-nose),Basic design of an e-nose

• Comparison of e-nose with biological nose

• The need of an e-nose

• The e-nose---An overview

• Working principle of an e-nose

• Sensor technology in e-nose

• Performing an analysis with an e-nose

• Applications of e-nose

• Conclusion

Introduction-electronic nose(e-nose)

o Electronic noses are engineered tomimic the mammalian olfactory system.

o Instrument designed to allow repeatable identifications and classifications of aroma mixtures.

e-sensing

Refers to the capability of reproducing human senses using sensor arrays and pattern recognition systems.

Definition: electronic nose(e-nose)

• Device intended to detect odors or flavors.

• Can be seen as arrays of sensors able to generate electrical signals inresponse to either simple or complex volatile compounds present in thegaseous sample.

Fig: Basic design of an e-nose

Biological Nose E-Nose

Inhaling Pump

Mucus Filter

Binding with proteins Interaction

Enzymatic proteins Reaction

Cell membrane depolarized Signal

Nerve impulses Circuitry and neural network

• Each and every part of the electronic nose is similar to human nose.

• Comparison Table:

Comparison of e-nose with biological nose

• The human sniffers are costly when compared to electronic nose.

• Speedy, reliable new technology of the gas sensors are used in the electronic nose.

• Detection of hazardous or poisonous gas is not possible with a human sniffer.

• An e-nose also overcomes other problems associated with the human olfactory system.

• There lies a great chances of difference in the values got by each individual.

The need of an e-nose

The e-nose---An overview

o An air sample is pulled by a vacuum pump.

o It is led through a tube into a small chamber consisting of electronicsensor array.

o A transient response is produced as the volatile organic compounds in thesample interact with the surface of the sensor’s active material.

o A steady state response is reached within few minutes.

o This response is then sent to a signal processing unit.

Electronic noses include three major parts:

I. a sample delivery systemII. a detection systemIII. a computing system

I. Sample delivery system

o Enables the generation of the headspace (volatile compounds) of a sample.

o The system then injects this headspace into the detection system of the e-nose.

Working principle of an e-nose

• Consists of a sensor set, is the "reactive" part of the instrument.

• Adsorption of volatile compounds on the sensor surface causes a physical change of the sensor; they experience a change of electrical properties.

• A specific response is recorded by the electronic interface transforming the signal into a digital value.

• Recorded data are then computed based on statistical models.

III. Computing system

o Works to combine the responses of all of the sensors.

II. Detection system

(1) Conductivity sensors

Metal oxide sensors(MOS) Conducting polymers

(2) Piezoelectric sensors

(3) MOSFET sensors

(4) Optical sensors

Sensor technology in e-nose

o The sensor array is clearly the key element. It forms the primary step in the detection or identification of an odorant.

o The most commonly used sensor s in electronic nose are:

1a- MOS (Metal oxide sensors) -

o Adsorption of gas molecules provoke changes in conductivity .

o This conductivity change is the measure of the amount of volatile organic compounds adsorbed.

o Conducting or conductive polymer gas sensors operate based on changes in electrical resistance caused by adsorption of gases onto the sensor surface.

(2) Piezoelectric sensors-

• Adsorption of gas onto the surface of the polymer leads to change in mass on the sensor surface.

• This in turn produces a change in the resonant frequency of the crystal.

• This change in frequency is proportional to the concentration of the test material.

(1b) Conducting polymers-

(3) MOSFET (Metal Oxide Silicon Field Effect Transistor )sensors-

o A volatile organic compound produces a reaction in the sensing layer(gate).

o This causes the physical property of the gate to change.

o Thereby the threshold voltage is changed and thus the channel conductivity.

(4) Optical sensors-

o Optical sensor systems are somewhat more complex than typical sensor-array systems having transduction mechanisms based on changes in electrical resistance.

o Optical sensors work by means of light modulation measurements.

Performing an analysis with an e-nose

o As a first step, an e-nose needs to be trained with qualified samples so as to build a database of reference.

o Then the instrument can recognize new samples by comparing volatile compounds fingerprint to those contained in its database.

o Thus they can perform the analysis.

Applications of E-nose

The applications(current) of an electronic nose include:

o Medical diagnosis and health monitoring

o Environmental monitoring

o Application in food industry

o Detection of explosives

o Space applications(NASA)

o In research and development industries

o In quality control laboratories

o In process and production department

Medical diagnosis and health monitoring by e-nose

I. Respiratory disease diagnosis-

o Human breath contains thousands of volatile organic compounds (VOCs) in gas phase.

o E-nose can diagnose respiratory infections such as pneumonia.

o It does so by comparing smell prints from the breath of a sick patient with those of patients with standardized readings.

o It is also being studied as a diagnostic tool for lung cancer.

II. Urinary Tract infections-

o The e-nose as a potential diagnostic tool for patients affected with kidney diseases, by distinguishing traces of blood in urine samples.

o E-nose is capable of distinguishing between the breath of a healthy person and a person with cancer.

o The device is especially promising because it is able to detect cancer before tumors become visible in X-rays.

Environmental monitoring by e-nose

o Environmental applications of electronic noses include:

(1) analysis of fuel mixtures(2)detection of oil leaks(3) testing ground water for odours(4)identification of household odours(5)identification of toxic wastes(6)air quality monitoring(7)monitoring factory emissions etc.

III. Cancer detection-

Applications of e-nose in food industry

Analysis of fruit ripening-

o Fruit ripening is associated with an accumulation of aromatic volatiles during ripening.

o Information from the noses can help in removal of rotten fruits at the appropriate time.

o This can help in avoiding storage losses due to rots and fruit diseases.

Detection of explosives

o E-nose is being developed for military and security applications in the detection of explosives and hazardous chemicals.

JPL Electronic Nose (e-nose)-A Brief Summary:

o It is a full-time, continuously operating event monitor used in the International Space Station.

o Designed to detect air contamination from spills and leaks in the crew habitat

o Provides rapid, early identification and quantification of atmospheric changes caused by chemical species to which it has been trained.

o Can also be used to monitor cleanup processes after a leak or a spill.

Space applications---e-nose and NASA

Conclusion

o An “electronic nose” is a system originally created to mimic the function of an animal nose.

o Offers a cheap and non destructive instrument that (if properly programmed and automated) can be operated by non specialists.

o Since the whole process is automatic, the cost of each measurement is very low.

o Finally, the measurement cycle should be faster in order to increase throughput.

o However, this analytical instrument is more a “multi-sensor array technology” than a real “nose”.

o Therefore, its aim is not to totally replace either the human nose or other analytical methods.

REFERENCES

o www.wikipedia.org

o www.slideshare.com

o www.powershow.com

o www.google.com

Thank you..