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Our publications, reports and research library hosts over 500 specialist reports and research papers on all topics associated with CCS.

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기술실행 보고서. 모노에탄올아민
기술실행 보고서. 모노에탄올아민

4th June 2015

Topic(s): Carbon capture, use and storage (CCUS), CO2 capture, Health, safety and environment

기술실행 보고서

제 1 권 – 모노에탄올아민(monoethanolamine)계 연소 후 CO2 포집 파일럿 플랜트의 배출량 측정

제 2 권 – 모노에탄올아민(이하 MEA)의 대기화학과 Loy Yang 연소 후 이산화탄소 포집 플랜트(이하 PCC)에서 배출된 배기가스의 3D 대기질 모델링

이 문서는 호주연방과학원(이하 CSIRO)이 주도한 아민계 연소 후 이산화탄소포집 기술의 대기질 영향에 대한 조사의 주요 결과를 요약한 것이다. 포집 공정의 환경 영향에 대한 지식을 확대하기 위하여 국제탄소포집저장연구소(Global Carbon Capture and Storage Institute: 이하 GCCSI)가 시작한 이 연구는 실제 배출량을 측정하였으며, 호주 빅토리아주에 위치한 AGL의 Loy Lang PCC 플랜트에서 대기질(air quality)에 대한 사례연구(case study)를 제공하고 있다.

Korean Translation of the Executive Summary of CSIRO Report Assessing atmospheric emissions from an amine-based CO2 post-combustion capture processes and their impacts on the environment: a case study.

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Disclaimer

The content within the Global CCS Institute Publications, Reports and Research Library is provided for information purposes only. We make every effort and take reasonable care to keep the content of this section up-to-date and error-free. However, we make no claim as to its accuracy, currency or reliability.

Content and material featured within this section of our website includes reports and research published by third parties. The content and material may include opinions and recommendations of third parties that do not reflect those held by the Global CCS Institute.

Impacts of trace components on Oxy-combustion for the Callide Oxy-fuel Project – Further results and analysis from Callide field trials, December, 2012
Impacts of trace components on Oxy-combustion for the Callide Oxy-fuel Project – Further results and analysis from Callide field trials, December, 2012

1st July 2014

Topic(s): Carbon capture, use and storage (CCUS), CO2 capture, Health, safety and environment

ANLEC R&D funded this technical report that follows a previous report on field experiment results from the retrofitted Callide-A Oxyfuel demonstration power plant. Additional analysis was conducted to bring this project to a conclusion. Further results support that the levels of metals, acid gases and mercury in particular, are below the level of operational concern in the CO2 processing unit (CPU), and that the health and environmental outcomes under oxy-firing conditions are likely to be similar to those achieved when using conventional air-firing.

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Disclaimer

The content within the Global CCS Institute Publications, Reports and Research Library is provided for information purposes only. We make every effort and take reasonable care to keep the content of this section up-to-date and error-free. However, we make no claim as to its accuracy, currency or reliability.

Content and material featured within this section of our website includes reports and research published by third parties. The content and material may include opinions and recommendations of third parties that do not reflect those held by the Global CCS Institute.

Assessing atmospheric emissions from an amine-based CO2 post-combustion capture processes and their impacts on the environment: a case study
Assessing atmospheric emissions from an amine-based CO2 post-combustion capture processes and their impacts on the environment: a case study

1st May 2014

Topic(s): Carbon capture, use and storage (CCUS), CO2 capture, Health, safety and environment

This two volume study was commissioned by the Global CCS Institute to expand knowledge on the environmental impacts of the capture process of carbon capture and storage (CCS). The study measured actual emissions and explored a case study into air quality at the AGL Loy Lang PCC Plant in Victoria, Australia.

Executive Summary
This document summarises the major outcomes of the CSIRO-led investigation into the potential air quality impacts of amine-based post-combustion carbon capture (PCC) technology.

Volume 1. Measurement of emissions from a monoethanolamine-based post-combustion CO2 capture pilot plant
This report describes the comprehensive experimental investigation of emissions concentrations of selected PCC liquors and process gas streams at the AGL Loy Yang Power Station using the CSIRO Loy Yang pilot-scale post-combustion capture (PCC) plant (LYPP). The benchmark solvent, monoethanolamine (MEA), was used to capture CO2 from the process gas of the Loy Yang coal-fired power plant. The experimental study focused on applying, evaluating and, where required, further developing current stack sampling and analytical techniques to identify the major chemical components existing in the process.

Volume 2. Atmospheric chemistry of MEA and 3D air quality modelling of emissions from the Loy Yang PCC plant
This report describes an experimental and modelling study of the impact of ethanolamine (MEA) emissions from the CSIRO Loy Yang pilot scale PCC plant. A chemical transport modelling system was used to simulate the likely impact of retrofitting a PCC installation to Loy Yang power station. A representative month (March 2005) was selected on the basis of having many of the atmospheric process of relevance to the chemical transformation of MEA and near-source plume strikes from the power station.

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Disclaimer

The content within the Global CCS Institute Publications, Reports and Research Library is provided for information purposes only. We make every effort and take reasonable care to keep the content of this section up-to-date and error-free. However, we make no claim as to its accuracy, currency or reliability.

Content and material featured within this section of our website includes reports and research published by third parties. The content and material may include opinions and recommendations of third parties that do not reflect those held by the Global CCS Institute.

Environmental impacts of amine-based CO2 post combustion capture (PCC) process. Deliverable 4.2: Determination of the fate of PCC emissions into the atmosphere
Environmental impacts of amine-based CO2 post combustion capture (PCC) process. Deliverable 4.2: Determination of the fate of PCC emissions into the atmosphere

5th July 2013

Topic(s): Carbon capture, use and storage (CCUS), CO2 capture, Health, safety and environment

This report is concerned with research performed as one of the five activities of the project funded by ANLEC R&D entitled “Environmental Impacts of Amine-based CO2 Post Combustion Capture (PCC) Process”.

This report is project deliverable 4.2 which details research undertaken as Activity 4: Determination of the fate of PCC emissions in the atmosphere. Outcomes from this work were used to perform a dispersion modelling scenario (deliverable 4.3) for the anticipated emissions from a black coal-fired power station retrofitted with an MEA-based CO2 capture plant.

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Disclaimer

The content within the Global CCS Institute Publications, Reports and Research Library is provided for information purposes only. We make every effort and take reasonable care to keep the content of this section up-to-date and error-free. However, we make no claim as to its accuracy, currency or reliability.

Content and material featured within this section of our website includes reports and research published by third parties. The content and material may include opinions and recommendations of third parties that do not reflect those held by the Global CCS Institute.

Estimated emissions to the atmosphere from amine based PCC processes for a black coal fired power station based on literature and modelling
Estimated emissions to the atmosphere from amine based PCC processes for a black coal fired power station based on literature and modelling

1st January 2012

Topic(s): Carbon capture, use and storage (CCUS), CO2 capture, Health, safety and environment

Chemical solvents using amines are the most likely technologies to be deployed in the near future to capture CO2 from industrial flue gases. These solvents have excellent effectiveness and efficiency to absorb CO2 in the flue gas from fossil fuel power plants operating with low partial pressures. In addition, these solvents can be regenerated and injected back into the process to capture more CO2. However, their degradation products may produce new pollutants which could be emitted to the atmosphere.
 
This case study analyses the latest information available in the public domain and employs the Aspen-Plus process simulator to estimate the atmospheric emissions of degradation products from an aqueous MEA solvent.

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Disclaimer

The content within the Global CCS Institute Publications, Reports and Research Library is provided for information purposes only. We make every effort and take reasonable care to keep the content of this section up-to-date and error-free. However, we make no claim as to its accuracy, currency or reliability.

Content and material featured within this section of our website includes reports and research published by third parties. The content and material may include opinions and recommendations of third parties that do not reflect those held by the Global CCS Institute.

Evaluation and analysis of water usage of power plants with CO2 capture
Evaluation and analysis of water usage of power plants with CO2 capture

22nd March 2011

Topic(s): Carbon capture, use and storage (CCUS), CO2 capture, Health, safety and environment

The primary purpose of this study is a review of the current state of the art technology in reducing water consumption for any coal or gas fired power generation technologies.

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Disclaimer

The content within the Global CCS Institute Publications, Reports and Research Library is provided for information purposes only. We make every effort and take reasonable care to keep the content of this section up-to-date and error-free. However, we make no claim as to its accuracy, currency or reliability.

Content and material featured within this section of our website includes reports and research published by third parties. The content and material may include opinions and recommendations of third parties that do not reflect those held by the Global CCS Institute.

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