API PUBL 4676 Arsenic: Chemistry, Fate, Toxicity, and Wastewater Treatment Options
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- ASTM D5610 Standard Guide for Defining Initial Conditions in Ground-Water Flow Modeling
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D6025 Standard Guide for Developing and Evaluating Ground-Water Modeling Codes
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D5610 Standard Guide for Defining Initial Conditions in Ground-Water Flow Modeling
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- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- ASTM D5610 Standard Guide for Defining Initial Conditions in Ground-Water Flow Modeling
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D6025 Standard Guide for Developing and Evaluating Ground-Water Modeling Codes
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D5610 Standard Guide for Defining Initial Conditions in Ground-Water Flow Modeling
- 13.060
- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- ASTM D5610 Standard Guide for Defining Initial Conditions in Ground-Water Flow Modeling
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D6025 Standard Guide for Developing and Evaluating Ground-Water Modeling Codes
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D5610 Standard Guide for Defining Initial Conditions in Ground-Water Flow Modeling
- 13.060.10
- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- ASTM D5610 Standard Guide for Defining Initial Conditions in Ground-Water Flow Modeling
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D6025 Standard Guide for Developing and Evaluating Ground-Water Modeling Codes
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D5610 Standard Guide for Defining Initial Conditions in Ground-Water Flow Modeling
- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- ASTM D5610 Standard Guide for Defining Initial Conditions in Ground-Water Flow Modeling
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D6025 Standard Guide for Developing and Evaluating Ground-Water Modeling Codes
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D6170 Standard Guide for Selecting a Ground-Water Modeling Code
- ASTM D6025 Standard Guide for Developing and Evaluating Ground-Water Modeling Codes
- ASTM D6025 Standard Guide for Developing and Evaluating Ground-Water Modeling Codes
- ASTM D5611 Standard Guide for Conducting a Sensitivity Analysis for a Ground-Water Flow Model Application
- ASTM E2081 Standard Guide for Risk-Based Corrective Action
- ASTM E2616 Standard Guide for Remedy Selection Integrating Risk-Based Corrective Action and Non-Risk Considerations
- ASTM E2205/E2205M Standard Guide for Risk-Based Corrective Action for Protection of Ecological Resources
- API PUBL 4761 API Groundwater Arsenic Manual Attenuation of Naturally-Occurring Arsenic at Petroleum Impacted Sites
- ASTM D6033 Standard Guide for Describing the Functionality of a Ground-Water Modeling Code
- Картотека зарубежных и международных стандартов
American Petroleum Institute
Arsenic: Chemistry, Fate, Toxicity, and Wastewater Treatment Options
N PUBL 4676
Annotation
SCOPE OF THE REVIEW
This monograph is intended to serve as a reference volume on the sources, chemistry, fate, aquatic and terrestrial toxicity, and wastewater treatment options for arsenic. The literature on environmental aspects of arsenic is massive. For example, computerized searches of the key information databases for the term "arsenic" indicated the following numbers of references: BIOSIS Previews (3,524 for the period 1985-96); CA Search (1,529 for 1957-96), Scisearch (5,654 for 1988-96), and U.S. Environmental Protection Agency's (U.S. EPA's) AQUIRE database (>1,000). As a result, the reader may need to consult more specific articles, including those that have been cited in text, and referenced at the end of each chapter.
Concentrations are reported throughout this report as they were cited in the original sources. It was not feasible to verify and convert all concentrations to a consistent atomic/formula basis (e.g., mg/kg as As vs. total compound).
Автоматический перевод:
Мышьяк: химия, судьба, токсичность и варианты очистки сточных вод
ОБЪЕМ АНАЛИЗА
Эта монография предназначается для служения в качестве ссылочного объема на источниках, химии, судьбе, водной и наземной токсичности и вариантах лечения сточных вод для мышьяка. Литература по экологическим аспектам мышьяка является крупной. Например, компьютеризированные поисковые запросы ключевых информационных баз данных для термина "мышьяк" указали на следующие числа ссылок: Предварительные просмотры BIOSIS (3,524 в течение периода 1985-96); Поиск CA (1,529 для 1957-96), Scisearch (5,654 для 1988-96), и США Агентство по охране окружающей среды (США EPA's) база данных AQUIRE (> 1,000). В результате читатель, возможно, должен консультироваться с более определенными предметами, включая тех, которые были процитированы в тексте и сосланы в конце каждой главы.
