Regulatory impact analysis of the proposed intervention level program for sulfur dioxide
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Regulatory impact analysis of the proposed intervention level program for sulfur dioxide

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Published by U.S. Environmental Protection Agency, Office of Air and Radiation, Office of Air Quality Planning and Standards, Air Quality Strategies and Standards Division in Research Triangle Park, NC .
Written in English

Subjects:

Places:

  • United States.

Subjects:

  • Sulphur dioxide -- Environmental aspects -- United States.,
  • Air quality -- Standards -- United States.

Book details:

Edition Notes

ContributionsUnited States. Environmental Protection Agency. Office of Air Quality Planning and Standards. Air Quality Strategies and Standards Division., United States. Environmental Protection Agency. Office of Air and Radiation.
Classifications
LC ClassificationsTD885.5.S8 R44 1996
The Physical Object
Pagination1 v. (various pagings) :
ID Numbers
Open LibraryOL731968M
LC Control Number97121558
OCLC/WorldCa36361034

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This Regulatory Impact Analysis (RIA) provides illustrative estimates of the incremental costs and monetized human health benefits of attaining a revised short‐term Sulfur Dioxide (SO2) National Ambient Air Quality Standard (NAAQS) within the current monitoring network of SO2 monitors. Regulatory Impact Analysis for the Proposed Standards of Performance for Greenhouse Gas Sulfur Dioxide. Tcf Trillion Cubic Feet. USGCRP U.S. Global Change Research Program. USGS U.S. Geological Survey. U.S. NRC U.S. Nuclear Regulatory Commission. VCS Voluntary Consensus Standards. VOM Variable Operating and Maintenance. Regulatory Impact Analysis for the Proposed Standards of Performance for Greenhouse Gas Sulfur Dioxide. SPC Supercritical Pulverized Coal. undertaking a continuous program of construction or entering into a binding contract to do so (40 CFR ). Estimate of Costs per Action Taken In the previous regulatory impact analysis of proposed implementation plans for a new NAAQS (regulatory option 1) or a program under Section (regulatory option 2), the cost analysis assumed that if an area indicated exceedances of ppm at any one time during a year, then controls would have to be.

Regulatory Impact Analysis on the National Ambient Air Quality Standards for Sulfur Oxides (Sulfur Dioxide), Draft [U.S. Environmental Protection Agency] on *FREE* shipping on qualifying offers. The U.S. Environmental Protection Agency (EPA) was introduced on December 2, by President Richard Nixon. The agency is charged with protecting human health and the environment. For this purpose, we can start with EPA’s estimates (from Table ES-7 on page ES and Table ES on page ES of its Regulatory Impact Analysis of the proposed rule) for benefits and costs, using a mid-range 3% real discount rate. Sulfur Dioxide () We've made some changes to the information you are looking for is not here, you may be able to find it on the EPA Web Archive or the Janu Web Snapshot. Sulfur Dioxide Significant Impact Determination Page 3 of 6 Date: 11/12/13, Revision: 0 Based upon the maximum impact, Receptor #’s for the 3-hour averaging period, Receptor #’s for the hour averaging period and Receptor #’s for the annual averaging .

Notice of Proposed Rulemaking Ti California Code of Regulations Amendment to Section Specific Regulatory Levels: Chemicals Causing Reproductive Toxicity Sulfur Dioxide; Revision of Proposed Specific Regulatory Level and Augmentation of Record for Proposed Regulation: Ti California Code of Regulations, Section , Specific. Sulfur dioxide (also sulphur dioxide in British English) is the chemical compound with the formula S O is a toxic gas responsible for the smell of burnt is released naturally by volcanic activity and is produced as a by-product of copper extraction and the burning E number: E (preservatives). Absorption of sulfur dioxide in the mucous membranes of the nose and upper respiratory tract occurs as a result of its solubility in aqueous media: 1 volume of water dissolves 45 volumes of sulfur dioxide at 15 oC. Absorption is concentration-dependent, with 85% absorption in the nose at 4–6 µg/m3 and about 99% at 46 µg/ Size: KB. analyze the estimated emissions rebound of carbon dioxide (CO 2) and criteria pollutants sulfur dioxide (SO 2) and nitrogen oxides (NO X), using results from the EPA’s p ower sector model.