Science & Technology

Standard Review Risk Assessment on Medium-chain and Long-chain Chlorinated paraffin PMN submissions by Dover Chemical

This assessment was conducted under EPA’s TSCA Section 5 New Chemicals Program. EPA is assessing Medium-chain Chlorinated Paraffin (MCCP) and Long-Chain Chlorinated Paraffin (LCCP) chemicals as part of its New Chemicals Review program.

About the Data

Data layers are developed for the contiguous U.S. and at higher resolution for selected communities.

The Charles River Initiative

Learn about the Charles River initiative, see the report cards on the water quality, and read press releases on the status of the river over the years.

Consumer Demand and the Economy-wide Costs of Regulation: Modeling Households with Empirically Estimated Flexible Functional Forms

This is a working paper titled "The U.S. Manufacturing Sector’s Response to Higher Electricity Prices: Evidence from State-Level Renewable Portfolio Standards"

Case Study Analysis of the Impacts of Water Acquisition for Hydraulic Fracturing on Local Water Availability

EPA scientists examined the balance between water supply and demand associated with hydraulic fracturing operations in the SRB and the UCRB.

Section 20: Radionuclides

There is no HRS score pathway for radionuclides, but there are special considerations that come into play within each of the four pathways when radioactive substances are present.

Section 19: Soil Exposure - Nearby Population Threat

Learn about soil exposure and nearby population threat, which assesses the relative risk that nearby individuals (residents, students, and day care children) may travel to the site and come into contact with hazardous substances.

Section 18: Soil Exposure - Resident Population Threat

The soil exposure pathway for evaluating HRS scores evaluates the potential threats to humans and terrestrial environments posed by direct, physical contact with hazardous waste or contaminated soil.

Section 17: Air - Waste Characteristics & Targets

The air migration pathway for evaluating HRS scores evaluates the likelihood of release of hazardous substances into the atmosphere and how many people and sensitive environments could be exposed to hazardous substances carried in the air.

Section 16: Air - Likelihood of Release

Learn about the air migration pathway for evaluating HRS scores and the likelihood of hazardous gas and particulate substance release.

Section 15: Surface Water - Ground Water to Surface Water Component

Learn about surface water targets, which can be threatened by the release of contaminated ground water.

Section 13: Surface Water - Human Food Chain Threat

Learn about how surface water releases can threaten the human food chain.

Section 12: Surface Water - Drinking Water Threat

Learn about how surface water releases can threaten the safety of drinking water.

Section 11: Surface Water - Likelihood of Release

Learn about the surface water pathway, the most complex pathway for evaluating Hazard Ranking System (HRS) scores.

Section 10: Ground Water - Waste Characteristics & Targets

Learn about the waste characteristics factor category in the ground water pathway, which is made up of two components: the toxicity/mobility of the most hazardous substance associated with the site and the hazardous waste quantity at the site.

Section 9: Ground Water - Likelihood of Release

Learn how EPA evaluates an identified aquifer's likelihood of release factor category for the purpose of scoring the ground water pathway.

Section 8: Ground Water - Aquifers

Learn about issues surrounding aquifers, the basic unit of evaluation in the HRS ground water pathway.

Section 7: Targets

Learn about targets, the third factor category in the HRS pathway score equation. Targets are the people, resources, or sensitive environments that could be affected by the site.

Section 6: Likelihood of Release

Learn about the likelihood of Release (LR) factor category, which is evaluated based on the factors of observed release and potential to release.

Section 5: Waste Characteristics

Learn about the calculation process for substance-specific factors, the chemical characteristics of the hazardous substances found at a site that are available to migrate from the site sources.