Testing Water Quality in Gas Fracking Regions

1. Testing Water Quality in Gas Fracking Regions Presented by Ivars Jaunakais WQA Aquatech USA 2013 • Indianapolis, Indiana

2. Testing Water Quality in Gas Fracking Regions “Anyone who tells you there are not profound risks in drilling shale for natural gas is misleading you.But anybody who tells you there are not extreme benefits is doing the same thing.” The End of Country - Seamus McGraw, 2011 WQA Aquatech USA 2013 • Indianapolis, Indiana 2

3. What is Fracking? Fracking is short for “hydraulic fracturing,” the catch-all term used to describe the process of extracting oil and natural gas from shale rock formations deep underground. WQA Aquatech USA 2013 • Indianapolis, Indiana 3

4. What is Fracking? Fracking blasts a mixture of water, sand and chemicals at underground shale to release the gas or oil captured in the rock. This form of natural gas drilling has potential for groundwater contamination. WQA Aquatech USA 2013 • Indianapolis, Indiana 4

5. Fracking Illustrated WQA Aquatech USA 2013 • Indianapolis, Indiana 5

6. Fracking Illustrated WQA Aquatech USA 2013 • Indianapolis, Indiana 6

7. Fracking is a growing industry WQA Aquatech USA 2013 • Indianapolis, Indiana 7

8. In the United States, residents living near fracked gas wells have filed over 1,000 complaints regarding tainted water and recently, the EPA Connected 'Fracking' To Water Contamination. WQA Aquatech USA 2013 • Indianapolis, Indiana 8

9. What the frack? • New Study Confirms Fracking Chemicals have caused Water Contamination • Pennsylvania is at the forefront of this subject after a recent study was released showing fracking is very possibly the cause of contaminated drinking water • The natural gas companies are fighting back and claim that fracking deep in the ground can not cause contamination WQA Aquatech USA 2013 • Indianapolis, Indiana 9

10. Fracking areas in the US WQA Aquatech USA 2013 • Indianapolis, Indiana 10

11. Why Water Quality Testing is Vital • There are no regulations or laws that require water testing if your house is served by a private water source (well / ground water) • Water testing for public water supply is required by law. Routinely testing of the water is done and water must meet USEPA water quality standards • Fracking is done in rural areas where private wells are principal water source WQA Aquatech USA 2013 • Indianapolis, Indiana 11

12. Why Water Quality Testing is Vital • A loophole in the 2005 Energy Bill exempts gas drillers from EPA guidelines like the Clean Water Act • A water's taste, smell, or color is not necessarily an indicator of water quality • Many hazardous contaminants are undetectable to the senses and can only be detected by testing WQA Aquatech USA 2013 • Indianapolis, Indiana 12

13. Important Water Quality Test Parameters in Gas Fracking Regions WQA Aquatech USA 2013 • Indianapolis, Indiana 13

14. List of Fracking Chemicals WQA Aquatech USA 2013 • Indianapolis, Indiana 14

15. Fracking Fluid Components by Volume WQA Aquatech USA 2013 • Indianapolis, Indiana 15 15

16. Additive Purposes WQA Aquatech USA 2013 • Indianapolis, Indiana 16 16

17. Minimum recommended water tests • Bacteria (Total Coliform / E-coli) • Barium • Bromide • Chloride (Salt) • Foaming Agents • Iron • Manganese • Methane / Ethane • pH • Total Dissolved Solids (TDS) WQA Aquatech USA 2013 • Indianapolis, Indiana 17

18. Additional water tests to consider • Alkalinity • Arsenic • Calcium • Magnesium • Nitrate • Strontium • Sulfate • Total Hardness • Zinc WQA Aquatech USA 2013 • Indianapolis, Indiana 18

19. Additional water tests to consider • Ammonia • Gross Alpha Beta (Radiation) • Lead • Nickel • Potassium • Sulfide • Uranium WQA Aquatech USA 2013 • Indianapolis, Indiana 19

20. Alkalinity • A measure of materials in water that can neutralize acidity • Common sources are carbonates and bicarbonates from bedrock — especially limestone • Higher alkalinity water supplies have high hardness and/or total dissolved solids which may cause aesthetic issues. WQA Aquatech USA 2013 • Indianapolis, Indiana 20

21. Arsenic • Naturally occurring metal also found in industrial wastes, pesticides and treated lumber. • Water should contain arsenic below the MCL of 0.010 mg/L to be safe to drink. • Higher amounts are carcinogenic and can cause many other health problems. • On-site Arsenic test kit that is USEPA verified can be used. WQA Aquatech USA 2013 • Indianapolis, Indiana 21

22. Barium • A metal that occurs naturally in low concentrations but found in a variety of waste fluids from gas drilling and other industries • Water should be below the MCL of 2.0 mg/L to be safe to drink due to gastrointestinal illness, muscular weakness and high blood pressure. • Testing Lab is recommended WQA Aquatech USA 2013 • Indianapolis, Indiana 22

23. Bacteria (Total Coliform / E-coli) • Bacteria (Coliform) is common in surface water. • Subgroups of fecal coliform or E. coli bacteria, indicate animal or human waste contamination • Coliform bacteria including fecal coliform and/or E. coli bacteria should be absent (MCL <1) to avoid gastrointestinal issues • On-site visual Bacteria tests are USEPA compliant and can be used for testing. WQA Aquatech USA 2013 • Indianapolis, Indiana 23

24. Bromide • Found abundantly in salt waters, brines, and various waste fluids • Bromide in water can form carcinogens when chlorine is added to disinfect water • On-site Salt (Photometer) test can be used to determine level or by Testing Lab WQA Aquatech USA 2013 • Indianapolis, Indiana 24

25. Chloride (Salt) • Naturally occurring salt that occurs at elevated levels from road salt runoff, gas drilling and septic systems • Water should have less than the MCL of 250 mg/L to avoid salty taste, metal corrosion and other aesthetic problems • On-site Salt test (photometer or salt meter) can be used or by Testing Lab WQA Aquatech USA 2013 • Indianapolis, Indiana 25

26. Gross Alpha Radiation • Measure of alpha radiation given off by naturally occurring radium in water • Water should have less than the MCL of 15 pCi/L due to health concerns including some cancers • Requires sophisticated Lab equipment to determine contamination levels WQA Aquatech USA 2013 • Indianapolis, Indiana 26

27. Hardness (Calcium and Magnesium) • Naturally occurring minerals that cause grayish or white scale and other aesthetic water issues • No industry standard for testing • High hardness causes scale build-up, especially where water is heated • TH is Total Hardness and measures both Calcium and Magnesium s • And Calcium Hardness measures only Calcium • On-site photometer test meters are available for both tests WQA Aquatech USA 2013 • Indianapolis, Indiana 27

28. Iron • Mineral which occurs naturally in the environment or from disturbances like fracking • Causes orange/brown stains and metallic taste • Water should contain less than 0.3 mg/L due to aesthetic problems • On-site photometer test kits available for test WQA Aquatech USA 2013 • Indianapolis, Indiana 28

29. Manganese • Another Mineral that occurs naturally in the environment • Causes black stains or sediment and metallic taste • Water should contain less than 0.5 mg/L due to aesthetic problems • On-site photometer test kits are available for test WQA Aquatech USA 2013 • Indianapolis, Indiana 29

30. Methane / Ethane • Naturally occurring or from fossil fuels, animal manure, biomass decomposition or landfills. • Cause bubbling noise in well, spurting faucets, white gas bubbles in water • No testing standard • Vented well caps suggested when levels exceed 7 to 10 mg/L and aeration suggested above 28 mg/L • Lab testing is recommended WQA Aquatech USA 2013 • Indianapolis, Indiana 30

31. Nitrate-N • Common nutrient found > 1.0 mg/L in pristine groundwater and streams • Increased levels (above 3 mg/L) from fertilizer, animal wastes, and septic systems • Water should be under the MCL of 10 mg/L • Nitrate-N causes health concerns related to blue-baby disease • On-site photometer test kits can give levels in 10 minutes WQA Aquatech USA 2013 • Indianapolis, Indiana 31

32. pH • An important measure of water quality. Low pH causes corrosion of metal plumbing components while high pH causes taste issues • Water should have a balanced pH between the 6.5 and 8.5 to avoid aesthetic problems like metal corrosion and poor tasting water • On-site testing can be done by pH meter or pH photometer test kit WQA Aquatech USA 2013 • Indianapolis, Indiana 32

33. Sulfate • A common, naturally occurring constituent of water. • High sulfates originate from bed-rock or fracking activity • Water should contain less than 250 mg/L due to aesthetic effects • On-site photometer test kit is available for test WQA Aquatech USA 2013 • Indianapolis, Indiana 33

34. Total Dissolved Solids (TDS) • A measure of dissolved inorganic & organic substances, acceptable levels for human drinking water is 100 mg/l • High levels caused by natural minerals (like hardness) or pollution from various environmental activities • TDS levels can indicate increased levels of toxic substances • Gives water a salty or metallic taste • On-site TDS meter is available for test WQA Aquatech USA 2013 • Indianapolis, Indiana 34

35. Total Suspended Solids (TSS) • A measure of the visible sediment and parti-cles in the water due to soil, metals, etc • Causes cloudiness to water. No standard for TSS but there is a MCL for Turbidity of 1 NTU • On-site Turbidity meters can do test WQA Aquatech USA 2013 • Indianapolis, Indiana 35

36. Zinc • Zinc can be introduced into water naturally by erosion of minerals from rocks and soil • High natural levels of zinc in water are usually associated with higher concentrations of other metals such as lead and cadmium • High levels of zinc can lead to stomach cramps, nausea and vomiting • Water with a zinc concentration of more than 5 mg/L becomes chalky in appearance with a detectable deterioration in taste • On-Site photometer test kits are available to do test WQA Aquatech USA 2013 • Indianapolis, Indiana 36

37. When to monitor your tap water? • Test early to establish a baseline for certain markers of tap water, stream or watershed health. Document location, time, date carefully. • Fracking wastewater includes salt brine and metals - take pH and TDS readings when collecting samples. • Measure TDS – which will rise dramatically when streams are contaminated with fracking wastewater WQA Aquatech USA 2013 • Indianapolis, Indiana 37

38. Now YOU can professionally test Water Quality at home WQA Aquatech USA 2013 • Indianapolis, Indiana 38

39. The ultimate water quality tester WQA Aquatech USA 2013 • Indianapolis, Indiana 39

40. Features • Lab quality accuracy at minimal cost • Handheld and uses a easy safe procedure • Dual wavelength (525 nm & 638) • Battery operation allows portable field/on-site testing • Directly reads over 35 water quality parameters with memory storage • Waterproof WQA Aquatech USA 2013 • Indianapolis, Indiana 40

41. Features • US Patented test method that uses a waterproof colorimeter with a “cell” or cuvette permanently welded into the meter • Plastic cell replaces glass cells to reduce breakage WQA Aquatech USA 2013 • Indianapolis, Indiana 41

42. Simple and patented test procedure • The US Patent in addition covers the colorimetric reagents delivery method by a test strip (eXact Micro Strip), which adds reagent(s) into the “cell” when dipped for 20 seconds WQA Aquatech USA 2013 • Indianapolis, Indiana 42

43. Rinse cell three times with water sample to be tested and fill cell to capacity. Simple test procedure (Total Hardness) WQA Aquatech USA 2013 • Indianapolis, Indiana 43

44. Simple test procedure (Total Hardness) Place cap over cell and press ON/ZERO Button to Zero Meter WQA Aquatech USA 2013 • Indianapolis, Indiana 44

45. Insert Reagent Test Strip into Cell and Press READ. Meter begins 20-second countdown and during countdown, move strip back & forth to add colorimetric reagent. Simple test procedure (Total Hardness) WQA Aquatech USA 2013 • Indianapolis, Indiana 45

46. Remove and discard strip. Add cell cap and meter will automatically continue to the read and store in memory. Total Hardness result is 127 ppm (7.4 gpg) as CaCO3 ( 17.1 ppm = 1gpg ) Simple test procedure (Total Hardness) WQA Aquatech USA 2013 • Indianapolis, Indiana 46

47. Micro 20 List of Tests • Alkalinity, Total  (525 nm) • Aluminum (638 nm) • Ammonia (638 nm) • Biguanide (683 nm) • Bromine (DPD-1) (525 nm) • Chloride (as NaCl) II (638 nm) • Chlorine Dioxide (DPD-1) (525 nm) • Chlorine, Free (DPD-1) (525 nm) • Chlorine, High Range Free (525 nm) • Chlorine, Total (DPD-3)** (525 nm) • Chlorine, Total (DPD-4) (525 nm) • Chromium (VI) (525 nm) • Copper (Cu+2) (525 nm) • Cyanide (638 nm) • Cyanuric Acid II (638 nm) • Fluoride (638 nm) • Hydrogen Peroxide LR (525 nm) • Total Hardness (as CaCO3) (525 nm) • Total Iron, TPTZ (638 nm) • Manganese (525 nm) • Nitrate (as NO3) (525 nm) • Nitrite (as NO2) (525 nm) • Ozone (DPD-4) (525 nm) • Peracetic Acid (DPD-4) (525 nm) • Permanganate (DPD-1) (525 nm) • pH (525 nm) • pH, BT (638 nm) - Salt Water Drops • pH, BT (638 nm) - Regular water • Phosphate (638 nm) • Quaternary Ammonia (638 nm) • Sulfate (638 nm) • Sulfide (638 nm) WQA Aquatech USA 2013 • Indianapolis, Indiana 47

48. Recommendations • Test private home well water every 6 months • Find unbiased sources and stay informed about fracking • Understand the existing Federal, State and Local regulations, including the testing that might be done on well water supplies • Save copies of all results from water tests performed on each Well and be sure they are documented properly for Date, Time of day, Test Method, Operator of testing the water, Water source with full details of address,, owner of well, and which faucet was used for sample for the water sample. The more details the better. • On-site photometers should be confirmed that they operate accurately by using and documenting Ready-Snap Standard test results. WQA Aquatech USA 2013 • Indianapolis, Indiana 48

49. Questions? Industrial Test Systems, Inc.Ivars@sensafe.comwww.sensafe.com WQA Aquatech USA 2013 • Indianapolis, Indiana 49