480 seconds of Marcellus shale flowback water… Slide 1 of 73.

Slides:

Advertisements

Similar presentations

High performance; from 1 metric ton to 100 metric tons instant purification facility per hour, 2400tons per day Low energy consumption (25 kw/h – 38 kw/h)

Advertisements

Wastewater and Stormwater Discharge from Landfills Rick Pinneo Illinois EPA.

Introduction to Water Quality Engineering. DRINKING WATER STANDARDS Primary Standards, enforeceable by law are parameters that directly affect human health.

Case Study Polluted Open Evaporation Pond Recycled industrial effluent Reclamation Demo Plant 1000m3/Day Project objectives Production of Alternative.

Treatment of Waste Brine from a Brackish Reverse Osmosis Plant

LEACHATE MANAGEMENT AND TREATMENT

Tertiary Treatment of Domestic Wastewater By

Tertiary Treatment: Nutrient Removal, Solids Removal, and Disinfection.

Environmental Regulation and Hydraulic Fracturing in California

Michele Robertson, PG Is Deep Injection a Disposal Option in Arizona? GATEKEEPER REGULATORY ROUNDUP 2011 February 16, 2011.

Case Study: Disinfection byproducts in a recently constructed public water supply Maria O’Connell, P.E. Kristine Wheeler, P.E. New York State Department.

Membrane Applications in Water Treatment

Water Issues Related to Marcellus Gas Drilling Activity Water Issues Related to Marcellus Gas Drilling Activity Bryan Swistock Water Resources Extension.

Slide 1 Delta Water Quality: Implications for Utility Compliance with the Safe Drinking Water Act Edward G. Means III Sr. Vice President McGuire Environmental.

SHALE PLAYS IN THE INTERMOUNTAIN WEST: LEGAL AND POLICY ISSUES Development of Shale: Water Resource Concerns & Policy Considerations Katy Dunlap, Esq.

Water Resources Problem

Environmental Engineering

Drinking Water and the Lake There are 40+ plants utilizing Lake Michigan Water Illinois, Wisconsin, Michigan, Indiana Sizes of 1 MGD to 1 BGD Designed.

Unconventional Gas: Shale Gas Shale Gas  Unconventional gas (hydrocarbons) found in subsurface shale formations  Replacement to coal, oil, and natural.

Purposes of Oxidation u Removal of iron, manganese, sulfides u Removal of Taste & Odor u Destruction of color u Removal of synthetic organics –chlorinated.

History In 1932 Plymouth constructed its first wastewater treatment plant In 1959 they transferred the sewage utilities over to Plymouth Utilities.

CE 370 Introduction to Water and Wastewater Treatment Plants

Common drinking water contaminants * chlorine * fluorine * lead (often from old plumbing with lead pipes and solder; old drinking fountains are notorious)

Monitoring Design, Available Data, and Filling Data Gaps for Determining Whether Shale Gas Development Activities Contaminate Surface Water or Groundwater.

Effective Use Of Peracetic Acid to Reduce Effluent Disinfection Byproduct in Water Resource Recovery Facilities Isaiah Shapiro, EIT Dimitri Katehis PhD,

Civil and environmental engineering Use of Abandoned Mine Drainage for Hydraulic Fracturing in Marcellus Shale Radisav D. Vidic Department of Civil and.

1 An Assessment of Marcellus Shale Environmental Issues in West Virginia By: David M. Flannery Kathy G. Beckett Jackson Kelly PLLC Presented at: Marcellus.

Marcellus Shale Wastewaters Management by Resource Recovery Shale Gas Innovation Contest Ben Franklin Technology Partners April 13, 2012 Timothy Keister,

Water and Wastewater Water Quality Laws Water Treatment Wastewater Treatment.

Water Quality. Where does drinking water come from? When you think about where your drinking water comes from, it's important to consider not just the.

Environmental Engineering Lecture 6. Sources of Drinking Water  Rivers: upland and lowland  Lakes and reservoirs  Groundwater aquifers  Sea water.

New Hanover County Landfill Leachate Treatment Facility Trevor Smith Shannon Alexander Kelly Abbott Courtney Jenkins Carol Ann Dulin.

1. Disinfection By-Products: A Historical Perspective Effect of Early Analytical Methodology for Analyzing Trihalomethanes (THMs) –Concentrating processes?

Hydrostatic Testing Draft General Permit Draft Permit Stakeholder Outreach Meeting April 23, 2015 Moderated by: Lillian Gonzalez, Unit Manager, Permits.

Marcellus Gas Drilling and Water Resources PA’s abundant water resources - a blessing and a concern Bigger rigsMore wastewaterMore waterMore disturbance.

Water Quality ESI Stream Water Mass after collecting by filtration Evaporate water after filtering, determine mass of residue TDS by conductivity since.

The Drinking Water Treatment Process

Civil Engineers: Environmental Engineering Erik R. Coats, PE, Ph.D. CE 115 November 10, 2005.

Evaluation of Non-Traditional Sources of Cooling Water Sujoy Roy and Michael DiFilippo Tetra Tech Inc, Lafayette, CA and MND Consulting, Berkeley, CA EPRI.

Freshwater Resources Chapter 4, Lesson 3. Where do we get our water from?  Running water  Standing water  Reservoirs: man-made lakes used to store.

Study on removal of bromate by activated carbon By Weifang Chen.

W w w. j a c k s o n k e l l y. c o m Kathy G. Beckett, Esquire 500 Lee Street East, Suite 1600, Charleston, WV Phone: Fax:

Produced Water Treatment For Recycle 22 nd IPEC – Denver, CO Dan Mueller, P.E.

Review of Environmental Engineering II. Water quality management Water pollutants sources – Point sources – Nonpoint sources Water pollutants – Oxygen.

Hydraulic Fracturing in the Ohio River Basin. –Conventional vs. nonconventional (continuous) Overview of Hydraulic Fracturing.

MSSC 2011 Annual Salinity Summit February 17 – 18, 2011 Thirty Years of Success in Implementing Desalination By Roger K. Noack, P.E. HDR Engineering, Inc.

Slide 1 Drinking Water Subcommittee Greg Gartrell, Chair CALFED Bay-Delta Public Advisory Committee SWRCB Periodic Review Presentation January 2005.

I met in the street a very poor young man who was in love. His hat was old, his coat worn, his cloak was out at the elbows, the water passed through his.

Green Technology for Biological Control of Marcellus Shale Hyrofracture Waters Shale Gas Innovation Contest Ben Franklin Technology Partners May 7, 2013.

How are groundwater and surface water connected?

Water Quality Rulemaking in Response to S.L

CEE 160L – Introduction to Environmental Engineering and Science Lecture 9 Drinking Water.

Lesson 8. C Describe examples of situations where solutions of known concentration are important. C Describe the process of treating a water.

Activities Review for the Water Unit Test.

Slide 1 California Implementation Water Board Policies.

Hydraulic Fracturing: Gas Drilling at What Cost? DAVID A. LUDDER 2012 Alabama Water Rally Camp Beckwith March 18, 2012.

Lecture4_introduction to drinking water, Chemeng, KKU, M.Thabuot      M. Thabuot CIP, Chemical Engineering KHONKAEN UNIVERSIT Y 1.

A systems level perspective on Marcellus wastewater management in Pennsylvania LESLIE ABRAHAMS Engineering and Public Policy Civil and Environmental Engineering.

CTC 450 Review Open Channel Flow (Manning’s Equation)

PLANNED POTABLE REUSE: URBAN WATER INSTITUTE’S SPRING WATER CONFERENCE

Wastewater General Permit Updates

Water Pollution.

CTC 450 Review Open Channel Flow (Manning’s Equation)

مبانی کار تصفیه‌خانه‌های آب

ENG421 (12c) – Desalination and Waste Handling

ENG421 (4c) – Water Quality Management

Collection System Protection Through an Effective Pretreatment Program

Adapting to a New Era: Declining Flow and Deteriorating Water Quality

Is the Bay Area Ready for Potable Reuse?

Presentation transcript:

480 seconds of Marcellus shale flowback water… Slide 1 of 73

Sea Water ~35,000 mg/l Typical wastewater ~ mg/l Chris Kulish, BS CE 2010 Molly Pritz, BS Geol 2010

800 psi, polyamide brackish water desalination membrane Through dilution only: 16 gas wells worth of salt per year in the watershed Chris Kulish, BS CE 2010

April, 2009Ch. 78 – Well permit fees from $100 to ~$1,800 - $3,000 February, 2011Ch. 78 – Outdated well casing standards updated OngoingCh. 93 – Water quality based standards August, 2010Ch. 95 – Effluent standards for Total Dissolved Solids (TDS) Changes to 25 PAC –Environmental Protection

Conventional Phys/Chem Treatment Vapor Compression Distillation Centralized Wastewater Treatment (CWT) Facility 1,000 gal Blended flowback, 80,000 mg/LTDS metric tons, 40% cake solids to landfill $40 ton $ gal Distillate, 100 mg/L TDS 320 gal to out-of-state deep well injection, 250,000 mg/L TDS $91 POTW River Recycling, for fracturing free Public Water Utility or Surface Water $40, all costs included or $4.50 Permits Lagging

New or expanding CWT POTW Pre-8/10 authorized discharges Landfill Leachate TDS, bromide (Br-), radium, etc. Not well represented in monitoring plans from SRBC and USGS Possibilities still exist for emerging pollutants in surface waters. Migration from groundwater Public Water Supply Impoundment failures Faulty casings

Natural Organic Matter (NOM): 2. Non-aromatics Bromide Ion, Br- OH R NH 2 R River Activated carbon Pre-adsorption Coagulation, Flocculation, and Sedimentation Filtration Disinfection Brominated Disinfection Byproducts – carcinogenic Cl 2 Drinking Water Utilities are not as well equipped to prevent formation of brominated disinfection byproducts (DBPs). 1. Aromatics

Susquehanna River, Winter 2011 DBPs tend to be of the brominated type DBPs tend to be of the chlorinated type Kitis et al., 2001 Rebekah Hupp, 2013 ‘Degree of aromatic organics’

Kitis et al., 2001 Susquehanna River, Winter 2011 Theoretical Max = 3 If bromide discharges increase, recent samples suggest the Susquehanna may be more likely to form brominated DBPs than chlorinated DBPs.

So, ultimately, where is it all going?