Monroe L. Weber-Shirk S chool of Civil and Environmental Engineering pH measurements The probe, from chemistry to voltage to a number + + V.

Slides:

Advertisements

Similar presentations

IC Controls Quality Water Solutions for pH pH / ORP Conductivity Dissolved Oxygen Chlorine Standards R1.0 © 2004 IC CONTROLS Concerns.

Advertisements

Linear Equations Review. Find the slope and y intercept: y + x = -1.

Summary of Potentiometry:

Chemical equilibrium: electrochemistry 자연과학대학 화학과 박영동 교수.

MLAB 2401: C LINICAL C HEMISTRY K ERI B ROPHY -M ARTINEZ Designs in Instrumentation Electrochemistry.

Tracking Reaction Progress via Electrochemical Methods.

Biopotential electrodes A complex interface Basics of Instrumentation, Measurement and Analysis 2011, 2012.

I’m Max Yaffe V.P. & one of the 3 founders of Gamry Instruments.

ISE Ion Selective Electrodes Prepared By Michigan Department of Environmental Quality Operator Training and Certification Unit.

Introduction to Electroanalytical Chemistry

1 Calibration of pH meters, glass electrodes and conductometers at INPL Calibration of pH meters, glass electrodes and conductometers at INPL Dr. Elena.

Electrodes and Potentiometry

Section 11 Potentiometry. Potentiometric Electrodes Potentiometric electrodes measure: Activity not concentration Concepts to review: Activity and affect.

14-6 Cells as chemical probes

File Name: pH.pptFeb 2001 pH Theory Applied to Proper Hardware Selection.

PH pH is a unit of measure which describes the degree of acidity or alkalinity (basic) of a solution. It is measured on a scale of 0 to 14. The formal.

Potentiometry. pH is a Unit of Measurement  pH = Power of Hydrogen (H + )  Defined as the Negative Logarithm of Hydrogen Ion Activity  pH = log (1/H.

Dr. Thomas Winkler ProMinent® Dosiertechnik Heidelberg

The world leader in serving science Technical pH Seminar.

PH meter CCC Kei Heep Secondary School F.6 Chemistry by Wong CS Chemistry CE Homepage Chemistry AL Homepage.

Chem. 133 – 3/5 Lecture. Announcements Lab –Set 2 Period 2 Labs Set to Finish 3/10 –3/12 will be make up day (for both Period 1 and Period 2 labs) –Set.

Dr. Marc Madou, UCI, Winter 2012 Class V Potentiometric and Amperometric Sensors (I) Electrochemistry MAE-295.

Potentiometry and the Detection of Fluoride

Chemistry 232 Transport Properties.

ANALYTICAL CHEMISTRY CHEM 3811 CHAPTER 15 DR. AUGUSTINE OFORI AGYEMAN Assistant professor of chemistry Department of natural sciences Clayton state university.

Monroe L. Weber-Shirk S chool of Civil and Environmental Engineering pH measurements The probe, from chemistry to voltage to a number + + V.

THE NERNST EQUATION RELATES THE MEMBRANE POTENTIAL TO THE DISTRIBUTION OF AN ION AT EQUILIBRIUM  E j = 59mV log C j o / C j i(6.11) 1. A tenfold difference.

Lab #1: Ohm’s Law (and not Ohm’s Law) Measure the internal resistance of a battery Study the V vs I characteristics of a diode and show that it does not.

PH In the Laboratory. Ionization of Water Equllibrium Constant, K eq.

Sanitation and HACCP Monitoring with the LIGHTNING MVP BioControl Systems, Inc.

Ohms Law Mitsuko J. Osugi Physics 409D Winter 2004 UBC Physics Outreach.

Ideal Diode Equation. Important Points of This Lecture There are several different techniques that can be used to determine the diode voltage and current.

IC Controls Quality Water Solutions for pH R1.0 © 2004 IC CONTROLS pH / ORP Conductivity Dissolved Oxygen Chlorine Standards An Overview.

pH and Conductivity Best Practices

South Fork Instruments Advances in pH/ORP Measurement – Polymeric Sensors Presented by John Daly South Fork Instruments.

Summer Course on Exergy and Its Applications EXERGY ANALYSIS of FUEL CELLS C. Ozgur Colpan July 2-4, 2012 Osmaniye Korkut Ata Üniversitesi.

Fundamentals of Electrochemistry Introduction 1.)Electrical Measurements of Chemical Processes  Redox Reaction involves transfer of electrons from one.

Passive components and circuits - CCP Lecture 3 Introduction.

Electrical resistance Resistance measures how difficult it is for current to flow.

THE MEASUREMENT OF pH. I GENERAL PRINCIPLES Convenient way to express hydrogen ion concentration, or acidity pH = - log[ H +

 Electricity is caused by the flow (or net movement) of Electrons  Electric Current – the rate that positive charges flow in a circuit › Actually a.

Announcements:. Last lecture 1.Organization of the nervous system 2.Introduction to the neuron Today – electrical potential 1.Generating membrane potential.

Lesson declared p[H] After finished this lesson student will to able to # Say about p[H]. # Say about pH indicators. # Say about Buffer solution.

THE ELECTROD AND REDOX POTENTIIALS.

Free Residual Chlorine Measurement

Chemistry 232 Transport Properties. Definitions Transport property. The ability of a substance to transport matter, energy, or some other property along.

Chem. 133 – 3/3 Lecture. Announcements Homework Set 2 (pass out) Grading –Working to get the Electronics labs and exam 1 graded by next Tuesday Lab –today.

PH THEORY What is it pH?What is it pH?/How is pH Measured?/What Equipment is Required to Measure pH?/How is a pH Measurement Device Calibrated?/Why is.

Home Reading Skoog et al. Fundamental of Analytical Chemistry. Chapters 18, 19, 21.

Ch. 21 Potentiometry 1. General principles

PH meter Bushra mubarak. pH pH is defined as the negative logarithm of the hydrogen ion activity aH. Unit of measure which describes the degree of acidity.

POTENTIALS AND THERMODYNAMICS OF CELLS (1) POTENTIALS AND THERMODYNAMICS OF CELLS (1)

Inovace bakalářského studijního oboru Aplikovaná chemie Reg. č.: CZ.1.07/2.2.00/

Bulk Electrolysis: Electrogravimetry and Coulometry

Electrochemical Methods: Intro Electrochemistry Basics Electrochemical Cells The Nernst Equation Activity Reference Electrodes (S.H.E) Standard Potentials.

Chem. 133 – 2/28 Lecture.

Ion Selective Electrode

MECH 373 Instrumentation and Measurements

Ion Selective Electrode

Conductivity Lecture.

Rapid Lab Systems measuring principle

PH pH is a unit of measure which describes the degree of acidity or alkalinity (basic) of a solution. It is measured on a scale of 0 to 14. The formal.

Electrode Training HORIBA Instruments, Inc. Pamela Millett Scientific

Tracking Reaction Progress via Electrochemical Methods

Determination of I- in Salt (Ion-Selective Electrode)

Intellical Red-ROD technology

Chapter 23 Potentiometry.

Characteristics.

Characteristics.

Presentation transcript:

Monroe L. Weber-Shirk S chool of Civil and Environmental Engineering pH measurements The probe, from chemistry to voltage to a number + + V

pH probe Silver/silver chloride electrode Porous reference junction 4 M KCl solution Glass bulb (insulator) with anionic sites + + V Sensing electrode Reference electrode Buffered KCl solution 

Glass membrane (Insulator) ä pH 4 solution (high H + ) ä Voltage across glass membrane ä Solution voltage is 180 mV higher than reference! ä We need a way to measure the solution voltage ä pH 4 solution (high H + ) ä Voltage across glass membrane ä Solution voltage is 180 mV higher than reference! ä We need a way to measure the solution voltage Reference Voltage Call it zero!

pH Measurements ä The porous frit provides electrical contact between the solution and the electrolyte ä Must be in contact with the sample solution ä Probe won’t work well if frit is clogged (fouled) ä The voltage measurement requires a very high __________ circuit (high resistance) because a pH probe can’t produce much current ä Gentle stirring keeps the solution next to the glass bulb from being depleted of protons ä The porous frit provides electrical contact between the solution and the electrolyte ä Must be in contact with the sample solution ä Probe won’t work well if frit is clogged (fouled) ä The voltage measurement requires a very high __________ circuit (high resistance) because a pH probe can’t produce much current ä Gentle stirring keeps the solution next to the glass bulb from being depleted of protons + + impedance

Difficult Measurements? ä pH is difficult to measure in poorly buffered solutions ä Distilled water ä Rain ä Between pKs of dilute buffers ä pH is difficult to measure in poorly buffered solutions ä Distilled water ä Rain ä Between pKs of dilute buffers

Nernst Equation: Voltage = f(pH) Reference (known) [H+] Voltage at Faraday constant Gas constant

Nernst Equation

Slope vs. Temperature ä Temperature compensation is important!

pH Calibration ä It would be possible to make a pH measurement without any calibration ä Based on theoretical values ä This is how the software recognizes buffers! ä Calibration accounts for non-ideal probe behavior (fouling) as well as electronic measurement errors ä It is important that buffers be used covering the range of pH measurements ä It would be possible to make a pH measurement without any calibration ä Based on theoretical values ä This is how the software recognizes buffers! ä Calibration accounts for non-ideal probe behavior (fouling) as well as electronic measurement errors ä It is important that buffers be used covering the range of pH measurements

The Challenge ETBuffer pH Current measurement (E, T) pH 0 to 3 known buffers used as standards Temperature compensation optional

Calibration Cases 0 or 1 standards w/ Temperature No standards (assume ideal slope and intercept) Single standard (assume ideal slope)

Multiple Point Calibrations w/ Temperature Compensation ä How would you use this information to calculate pH? E (mV)T (C) Buffer pH Current measurement (E, T) pH Piecewise linear fit Calculate E/T