Laboratory Exercises and Field Measurements in Environmental Engineering 1 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY By: Ali Torabi Haghighi.

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Laboratory Exercises and Field Measurements in Environmental Engineering 1 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY By: Ali Torabi Haghighi

Laboratory Exercises and Field Measurements in Environmental(488118S ) The Laboratory Exercises and Field measurement in Environmental Engineering course is composed of 5 different modules: Geotechnical engineering, Site investigation and field measurement; Hydraulics; Groundwater; and Water and wastewater treatment. It is strongly recommended that before undertaken this course the student should acquire basic knowledge in the fields of geotechnical engineering, hydraulics, ground water engineering, water and wastewater treatment processes. At the University of Oulu these knowledge is provided by the following courses: A Basics in environmental geotechnics; S Groundwater engineering; S Hydraulics for environmental engineering; S Water and wastewater treatment; S Advanced environmental engineering. WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY 2

Schedule: WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY 3

Modules: Module1: Site investigation and field measurement Module2: Fluid mechanics and open channel hydraulics Module3: Ground water engineering Module4: Geotechnical and Geoenvironmental Engineering Module5 : water and waste water engineering WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY 4

Module 2 : Fluid mechanics and open channel hydraulics Fluid mechanics contains (water discharge, Momentum equation, Bernoulli’s equation ) Open channel hydraulics contains (Different methods for measuring flowrate, weirs, gates, Hydraulic jump and...) work with data logger Tracer test WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY 5

Module 3: Ground water engineering Soil parameters (Hydraulic conductivity (K), specific yield (S), porosity (n) and PF ) Darcy low and Groundwater flow Contaminant transport WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY 6

Module 4: Geotechnical and Geoenvironmental Engineering WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY 7 Geotechnical Tests Soil classification SievingHydrometer Etterberg Limits Liquid limitPlastic limit Soil improvment Compaction (proctor ) Soil streght Direct shear box CnosolidationEodeometer

Module 5: Water and waste water engineering Jar test experiment Settling velocity Limestone (CaCO3) filtration Aeration Determination of Fe, Cl -, Mn WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY 8

Module1: Site investigation and field measurement Work with GPS Surveying and prepare a topography map Soil sampeling Water sampeling Calculate water velocity and discharge WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY 9

Course assessment Participate in lectures and prepare the assignments (20 %) Quiz (15%) Participate in lab and field activities(20 %) Prepare report(%40) You get points of report if you participate in field and lab activites and pass the quize If you participate on more than 85% of course schedule, you can recieve 10 credit points when you collect sufficient points from all 5 modules If you participate between % of course you can recieve 5 credit points when you collect sufficient points from different modules(at least 3 modules) WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY 10

How to Write a Lab Report Lab reports are an essential part of all laboratory courses and usually a significant part of your grade. Title Page Title Introduction / Purpose Materials Methods calculation Results Discussion or Analysis Resources of error Conclusions Figures, Graphs and table References 11 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

Units of measurement A unit of measurement is a definite magnitude of a physical quantity, defined and adopted by convention and/or by law, that is used as a standard for measurement of the same physical quantity 12 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

SI Vs. Imperial system SI The International System of Units (abbreviated SI from the French Le Système International d'Unités) is the modern form of the metric system and is generally a system of units of measurement devised around seven base units and the convenience of the number ten. It is the world's most widely used system of measurement, both in everyday commerce and in science. The older metric system included several groups of units. The SI was developed in 1960 from the old meter- kilogram-second system, rather than the centimeter-gram-second system, which, in turn, had a few variants. Because the SI is not static, units are created and definitions are modified through international agreement among many nations as the technology of measurement progresses, and as the precision of measurements improves. Imperial System Imperial units or the imperial system is a system of units, first defined in the British Weights and Measures Act of 1824, later refined (until 1959) and reduced. The system came into official use across the British Empire. By the late 20th century most nations of the former empire had officially adopted the metric system as their main system of measurement. 13 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

Prefix A prefix may be added to a unit to produce a multiple of the original unit. All multiples are integer powers of ten. For example, kilo- denotes a multiple of a thousand and mille- denotes a multiple of a thousandth; hence there are one thousand millimeters to the meter and one thousand meters to the kilometer. The prefixes are never combined: a millionth of a kilogram is a milligram not a micro kilogram 14 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

Errors Any measurement includes errors, we can never find the true value, we can find the best estimate of the measured quantity. Types of Errors: 1.Gross Errors (Mistakes): Large amounts, easy to find, must be eliminated before adjustment. 2.Systematic errors: Follow a mathematical function, can usually be checked and adjusted, and tend to maintain same sign 3.Random Errors: remains after eliminating gross and systematic errors. Impossible to compute or eliminate. They follow the probability laws, so they can be adjusted Their signs are not constant. Present in all surveying measurements. 15 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

Mistake Mistakes. Entirely distinct from errors, in the sense heretofore used, are those inaccuracies which are due purely to carelessness, and which should properly be called mistakes. They consist in such blunders as reading the wrong number on the scale, reading one number and putting another down in the notes, making a miscount in timing and lost some steps Mistakes are usually easily detected, and there is no remedy except careful checking. When measurements are made more than once the checking is a simple matter. 16 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

Random vs. Systematic Error Random errors: in experimental measurements are caused by unknown and unpredictable changes in the experiment. These changes may occur in the measuring instruments or in the environmental conditions. Systematic errors in experimental observations usually come from the measuring instruments. They may occur because: there is something wrong with the instrument or its data handling system, or because the instrument is wrongly used by the experimenter. 17 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

Example of systematic error You want measure a 425 meters length with a 50 meters measuring tape. This device has +10 cm systematic error It means in each times measuring you record 50 meters but in real you measure meter finally you have *.10meters (425.85) in your record inset of 425 meters In real But museaure =.8517 meters error 18 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

Precision vs. Accuracy Precision:"The precision of a measurement refers to how close to one another these repeated measurements are.“ Accuracy:"The accuracy of a series of measurements is the closeness of their average value to a true value." 19 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

Probability Error analysis involve random errors only. Random errors occurrence is governed by the probability laws, as any random phenomena. The most probable value of a single quantity observed many times under the same condition is the mean M =  OiOi n Residuals: the difference between any observation and it’s most probable value: v i = M - O i 20 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

Error Distribution Random errors are randomly distributed, a bell shape distribution that is approximated by the probability curve. General Laws of Probability : – small errors occur more often than large ones – Positive and negative errors of the same size happen with equal frequency, they are equally probable. That is why the mean is the most probable value. 21 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

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Measures of Precision standard deviation is the most frequently used measure of precision. The less precise the observations are, the larger the standard deviation becomes The standard deviation is the inflection point of the curve, it represents how much the observations are close to each other. It has a probability of That means of the observations will be in the range of   24 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

CALIBRATION Calibration is a comparison between measurements - one of known magnitude or correctness made or set with one device and another measurement made in as similar a way as possible with a second device. 25 WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY

Thanks WATER RESOURCES AND ENVIRONMENTAL ENGINEERING LABORATORY 26