Fracking
fracking

_**Hydraulic fracturing (aka fracking or hydrofracking) makes up a growing portion of the energy sector, and the environmental concerns associated with this process are shared among concerned citizens across the world. There are dozens of subtopics associated with the fracking industry, and this wiki is a work in progress. Please contribute to the resources and discussion by [editing this wiki page](https://publiclab.org/wiki/edit/fracking) or [adding and answering questions](https://publiclab.org/wiki/fracking#Questions) below!**_ Follow Fracking ##Questions Questions from the Public Lab community tagged with 'fracking' will appear here [questions:fracking] ##Activities Activities on Public Lab tagged with 'fracking' will appear here [activities:fracking] ##What Is Fracking? **Fracking** is “the process of injecting liquid at high pressure into subterranean rocks, boreholes, etc so as to force open existing fissures and extract oil or gas” ([Here’s the History of Fracking in U.S.](https://www.greenmatters.com/p/history-of-fracking-in-us)). In short, fracking is the extraction of hydrocarbons from rock by fracturing it. ####Unconventional Fossil Fuels Fracking is a method of **“unconventional” fossil fuel extraction**. Compared to “conventional” methods, unconventional oil and gas resources are much harder to extract, often due to poor permeability and porosity of the source rock, and specialized techniques and technologies must be developed to reach these resources. Unconventional fossil fuels include tar sands (which must be mined and then injected with stream), oil shale, shale gas, and deepwater oil. The development of unconventional fossil fuel technologies has many implications. First, because these technologies make previously inaccessible or unretrievable fossil fuels available, the burning of hydrocarbons from unconventional fossil fuel extraction adds carbon dioxide to the atmosphere that would otherwise still be sequestered underground. This threatens the carbon cycle and exacerbates global warming & climate change. Second, the technologies and processes needed for unconventional fossil fuel extraction are costly and resource-intensive. Third, all methods of unconventional fossil fuel extraction have associated environmental concerns and threaten costly environmental damage to fragile ecosystems, leading to social costs borne by the public and the need for land, water, and pollution remediation ([Unconventional Fossil Fuels](https://geographyrevisionalevel.weebly.com/65c-unconventional-fossil-fuels.html#:~:text=6.5C%20-%20Unconventional%20Fossil%20Fuels.%201%20Tar%20Sands.,for%20the%20resilience%20of%20fragile%20environments.%20More%20items)). ####Fracking Fluid The liquid injected into the rock to fracture it is termed “**fracking fluid**” and is a mixture of water, sand, and chemical additives. 99.5% of fracking fluid is water and sand proppant, leaving 0.5% made up by added chemicals. _(Note: other sources say chemicals may make up as much as 2% of the fracking fluid)._ These over 1,000 chemical additives serve numerous purposes, including dissolving minerals, minimizing friction, removing oxygen from the water, killing bacteria, and removing pipe scale ( [Everything You Wanted To Know About Unconventional Fossil Fuel Sources](https://fossilfuel.com/everything-you-wanted-to-know-about-unconventional-fossil-fuel-sources/)). Potentially hazardous chemicals are present in fracking fluid, including methane, ethylene glycol, propargyl, lead, and benzene ([23 Fracking Statistics Everyone Should Know in 2021](https://seedscientific.com/fracking-statistics/)). ####Shale Rock Fracking is used to extract oil and gas from **shale**, a type of sedimentary rock that accounts for about 70% of the rock in Earth’s crust ([Shale Rock: Geology, Composition, Uses](https://www.thoughtco.com/shale-rock-4165848)). It is a fine-grained rock made from compacted mud and clay known for its ability to break into layers (a characteristic known as **fissility**). Shale formations generally have low permeability, meaning fluids (like oil and gas) do not flow easily through them (indicating the necessity for fracking to break the rock apart). Shale has widespread commercial uses, including the production of bricks, pottery, tiles, & some cement and of course the extraction of oil & gas. ####What Types of Oil and Gas Are Produced From Fracking? + **Shale (or tight) oil**: type of oil that may be extracted by heating and upgrading kerogen trapped in shale ([Shale oil - Energy Education](https://energyeducation.ca/encyclopedia/Shale_oil)). + **Kerogen** is a substance that forms when shale is heavily buried and heated. It releases oil and natural gas slowly when it is continually heated ([Kerogen - Energy Education](https://energyeducation.ca/encyclopedia/Kerogen)). + **Tight gas**: natural gas trapped within a rock with extremely low permeability (typically limestone or sandstone) + _Note: tight gas is typically found in limestone or sandstone, NOT shale_ + **Shale gas**: natural gas trapped within shale ([Shale gas - Energy Education](https://energyeducation.ca/encyclopedia/Shale_gas)). ####Process [![fracking_process.jpg](/i/45086)](/i/45086?s=o) _Image courtesy of [Guide to Human-Made Earthquakes in Idaho](https://wp.wwu.edu/guide/2017/12/01/hydraulic-fracturing-fracking-the-basics/)_ 1. Water is mixed with sand and chemicals 2. A well is drilled into the shale and sealed to prevent groundwater contamination 3. Horizontal drilling may or may not take place 4. Perforating gun sends explosive charges to puncture holes deep in the shale 5. Highly pressurized fracking fluid is pumped into the well 6. Energy from the pressurize fracking fluid cracks shale open at tiny holes -- “Fracturing” occurs when the pressure of the fluid exceeds the tensile strength and the least principal stress of the rock. 7. Fracking fluid is pumped out, now called “produced water”, and (ideally) natural gas or oil will follow. 8. Repeat (maybe)---the same well can be fracked up to 20 times Overall, fracking creates permeability in rocks, allowing pores naturally filled with hydrocarbons to enter the man-made maze of cracks connected to the well. ####History Hydraulic fracturing has been used in the United States since the 1940s, with some sources saying the “first” instance of fracking occurred as early as the 1860s. The process was first used in Kansas on limestone, and since then, 1.7 million wells have been created and more than 7 billion barrels of oil and 900 trillion cubic feet of natural gas have been produced. ####Argued Benefits of Fracking The Independent Petroleum Association of America lists some benefits of utilizing fracking technology in their statement: “By safely unlocking America’s abundant natural resources, fracking has created millions of American jobs, reduced energy prices, brought cleaner air by significantly reducing U.S. greenhouse gas emissions to 25-year-lows, strengthened our national security, and transformed the United States into a global energy superpower." #Environmental Issues Associated With Fracking Fracking is an extremely resource-intensive process. Each frack requires up to 8 million gallons of water and 40,000 gallons of chemicals. With 1.7 million wells and up to 20 fracks per well, that’s 272 trillion gallons of water and 1.36 trillion gallons of chemicals since 1947. [![cropped-fracking-infographic-concerns.jpg](/i/45087)](/i/45087?s=o) _Image courtesy of [Americans Against Fracking](https://sites.psu.edu/fracking1/)_ ####Water Unconventional methods of fossil fuel extraction require more water than conventional methods, and fracking is no exception. [![water_cycle_final_assessment.png](/i/45088)](/i/45088?s=o) _Image courtesy of [US EPA](https://www.epa.gov/hfstudy/hydraulic-fracturing-water-cycle)_ ####Methane - According to the NRDC, by 2025 health damages caused by methane leakage during fracking are estimated to be at $13-29 billion/year. - [Methane in water](https://www.youtube.com/watch?v=4LBjSXWQRV8) ####Land & Soil “Since unconventional fossil fuels are more difficult to access, they demand more energy and occupy more land. They also produce more waste” ([Everything You Wanted To Know About Unconventional Fossil Fuel Sources](https://fossilfuel.com/everything-you-wanted-to-know-about-unconventional-fossil-fuel-sources/)). ####Air ####Frac Sand Mining #####Water Contamination #####Mine reclamation #####Radon ####Distraction From Renewables Many of the benefits of fracking---lower gas prices and increased national energy security due to wider availability of fossil fuels---disincentivizes the shift toward renewable energy resources that is necessary to mitigate climate change. ####Earthquakes ####Greenhouse Gas Emissions While natural gas is considered the “cleanest” fossil fuel, it is composed of 80% methane. During the fracking process, about 3.7% of the natural gas is released into the atmosphere (known as the leakage rate). Methane’s global warming potential is 84 times that of CO2 because it lasts in the atmosphere so much longer, meaning over time methane contributes more to global warming and climate change ([23 Fracking Statistics Everyone Should Know in 2021](https://seedscientific.com/fracking-statistics/)). ##Environmental Justice Issues ##Banning Fracking ##Human & Public Health Concerns ##Fracking Rhetoric ##Boots on the Ground: Community Groups, Individuals, Nonprofits, & Researchers ##Resources & Further Reading - [Here's the History of Fracking in U.S.](https://www.greenmatters.com/p/history-of-fracking-in-us) - [Unconventional Fossil Fuels](https://geographyrevisionalevel.weebly.com/65c-unconventional-fossil-fuels.html#:~:text=6.5C%20-%20Unconventional%20Fossil%20Fuels.%201%20Tar%20Sands.,for%20the%20resilience%20of%20fragile%20environments.%20More%20items) - [Fracking explained: opportunity or danger](https://youtu.be/Uti2niW2BRA)...


Author Comment Last activity Moderation
nshapiro "It depends how far from the infrastructure you will be monitoring and what infrastructure you will be monitoring. Some states have the geology for ..." | Read more » over 9 years ago
claf "Might work...will look into it. " | Read more » over 9 years ago
claf "Thanks Nick, I appreciate your advice. Would a combination of sensors be more useful? Seismograph, water, noise level...other? " | Read more » over 9 years ago
mathew "would a vacuum pump for food packing work? alternatively, can you pack the sensors in rice? " | Read more » over 9 years ago
nshapiro "Hey @claf I'm doing some air monitoring work in areas of intensive fracking here in PA (weather variables, formaldehyde, ultrafine particulate matt..." | Read more » over 9 years ago
LauraChipley "Thanks so much for these resources, Sara! " | Read more » almost 10 years ago
sara "Hi Laura, not sure if Hydrogen Sulfide is a problem near you, but if so you should look at our H2S monitoring project: http://publiclab.org/notes/S..." | Read more » about 10 years ago
mathew "I'd look at the NIOSH/OSHA work on fracking site safety. They're seeing elevated particulate levels and lots of exposure to H2S, volatile organics..." | Read more » about 10 years ago
claf "I'm in Texas and am faced with an impending big fracking operation near my place. The TX Railroad commission, who manages the frackers, does post s..." | Read more » over 10 years ago
jefffalk "Thanks for the info on the DUSTTRAK. It's good to remember everything comes with advantages and disadvantages. Adjusting for or eliminating humidit..." | Read more » over 10 years ago
DavidMack "@jefffalk TSI explains the instrument and its calibration in documents on its web site: http://www.tsi.com/DUSTTRAK-Aerosol-Monitor-8520/ see "th..." | Read more » over 10 years ago
jefffalk "After reviewing these posts it became apparent that there are two questions here. One is about "eliminating" humidity, possibly by mechanical means..." | Read more » over 10 years ago
mathew "I'll connect with Hank on his Dylos-- we'll see what he's doing. there are a million ways to do this that have already been done-- so yeah, we sh..." | Read more » over 10 years ago
jefffalk "Hank Boschen's Dylos monitoring system in Chippewa Falls records readings from a Dylos every 10 minutes and posts to a website. It also includes we..." | Read more » over 10 years ago
DavidMack "sorry for the late reply but as you probably discovered as the air sample relative humidity increases, the moisture increasingly interferes with th..." | Read more » over 10 years ago
mathew "@donblair-- the author doesn't seem to understand the terminology in use. The conclusions are based on a misunderstanding of what PM2.5 actually m..." | Read more » over 10 years ago
Jdahlen "Yes, we're hoping we can get the Ethernet and USB connection to work for the Dusttrak. As for the Dylos, the only information we are able to take o..." | Read more » over 10 years ago
donblair "Did you see the article AmySoyka posted about the Dylos? http://publiclab.org/notes/Schroyer/06-26-2014/broadcast-dust-readings-from-a-smartphone#c..." | Read more » over 10 years ago
mathew "Oh Ethernet! Cool that probably isn't too hard to talk to but a computer of some sort will be needed. Serial is great! We can probably get it to t..." | Read more » over 10 years ago
Jdahlen "We usually just record the data right after our 24-hour sampling, but the Tech team at UWEC is helping us figure out how to retrieve our continuous..." | Read more » over 10 years ago
mathew "How does data come off? USB? Serial? There's got to be something " | Read more » over 10 years ago
Jdahlen "Sorry for the late reply, but the Dusttraks and Dylos, to my knowledge, do not have sensor out-ports. If I would be able to see what the connector ..." | Read more » over 10 years ago
mathew "yes, they are also optical, like the Dustduino and Speck, but they use lasers instead of focused LEDs. " | Read more » over 10 years ago
warren "Hi, thanks for the post -- are the Dusttrak & Dylos optical devices, like the one the DustDuino project's using? http://publiclab.org/tag/dustd..." | Read more » over 10 years ago