• Title/Summary/Keyword: Energy recycling

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A Study on the Optimal Method of Eco-Friendly Recycling through the Comparative Analysis of the Quantitative Calculation and Scope of Recycling

  • Seung-jun WOO;Eun-gyu LEE;Chul-hyun NAM;Kang-hyuk LEE;Woo-Taeg KWON;Hee-Sang YU
    • Journal of Wellbeing Management and Applied Psychology
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    • v.7 no.3
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    • pp.1-11
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    • 2024
  • Purpose: The purpose of this study is to present an efficient emission reduction ratio of plastic to reduce carbon dioxide, the main cause of greenhouse gases. Research design, data and methodology: This study calculated the absolute value of carbon dioxide by setting an equation through the emission coefficient using the US EPA's WARM model. Results: In the recycling ratio of 70%, it was found that the energy recovery ratio was 15.6%, which was the energy recovery ratio without generating carbon dioxide. When carbon dioxide is generated by changing plastic waste emissions, optimal efficiency is achieved by reducing emissions by 10% to 30% of energy recovery ratio, 20% to 50% of energy recovery ratio, and 30% to 80% or more of energy recovery ratio. Conclusions: The recycling rate should be set at a minimum of 70%, so that a carbon dioxide-free energy recovery rate could be obtained during the recycling process, supporting an eco-friendly basis for environmental policies aimed at this rate. In addition, it was possible to suggest that it is essential to reduce emissions by at least 30% for eco-friendly recycling measures that can achieve both economic and environmental feasibility in the energy recovery process through incineration during recycling in Korea.

Overview for Coffee Grounds Recycling Technology and Future Concerns (커피 추출 폐기물 재활용 현황과 기술 동향 분석)

  • Hong, Hyun Seon;Kim, Yuli;Oh, Min Joo;Lee, Yu Mi;Lee, Hye Ji;Cha, Eun Seo
    • Journal of Korea Society of Waste Management
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    • v.35 no.7
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    • pp.587-599
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    • 2018
  • The coffee grounds generated during the coffee extraction process contain several resources, but the technology for their recycling has not been commercialized yet, causing various environmental problems. Due to the recent increase in coffee consumption worldwide, the amount of coffee grounds produced has been continuously increasing, reaching more than 750 million tons. In Korea, about 120,000 tons of coffee waste are annually generated; however, most of them are landfilled or incinerated. Although there is still a shortage of coffee waste recycling technologies compared to the amount of coffee grounds produced, various recycling approaches are being actuated in many countries including Korea. In this study, the generation of coffee grounds at home and abroad, the status of coffee grounds recycling, and the associated technology development trends were investigated. The coffee grounds recycling has been studied in the fields of energy, adsorbent, construction, agriculture, and bio-foods. Research is most active in the energy and biotechnology areas; in particular, since the oil in the coffee grounds is valuable as a feedstock for biomass energy, the technology related to energy recovery is currently under development worldwide. Removed because confusing and unnecessary.

Appropriate Technology for the Paper Recycling: A New Paradigm

  • Vu, Hong Ha Thi;Lai, Tuan Quang;Ahn, Ji Whan
    • Journal of Energy Engineering
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    • v.27 no.2
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    • pp.81-88
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    • 2018
  • Every day a huge amount of paper is being used, most of them are thrown after using. This directly impacts on the environment. Therefore, waste paper management is necessity to protect the environment from its annihilation and pollution. Paper recycling products consist of printing paper, newspaper, corrugated containers, magazine paper and so on. Reuse waste paper will reduce the consumption of wood and virgin pulp as recycling one ton of newsprint can save approximately 1 ton of wood, meanwhile recycling 1 ton of printing paper can save more than 2 tons of wood. With increasing recycling rates, lower quality paper fractions may be included. Thus the selection of a paper recycling technology is a crucial first design consideration. The paper recycling must be accompanied by appropriate technology to manage a huge volume of wastepaper. The specific objectives of this study were as follows: (1) comprehensive literature reviews of paper production and consumption, (2) figure out about paper recovery and utilization, (3) investigate the paper recycling in the sustainable times, (4) introduce eco-friendly recycling technology to paper industry.

Worldwide Trend and Korean Recent Status in the Supply-Demand for Resources -The Current Situation of Recycling Technology for Waste Resources in Korea(1)- (자원수급(資源需給)의 세계적(世界的)인 추세(趨勢)와 우리나라의 동향(動向) -국내자원(國內資源)의 유효이용(有效利用)을 위한 처리(處理) 및 회수기술(回收技術) 동향조사(動向調査)(1)-)

  • Oh, Jae-Hyun;Kim, Mi-Sung;Cho, Sung-Baek
    • Resources Recycling
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    • v.15 no.3 s.71
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    • pp.3-19
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    • 2006
  • Sustainable supply of minerals and energy is global problem. Metals and energy consumption in the world has increased with economic growth. Currently more than 40 metals are systematically extracted and used in many different fields in civilized society. Recycling and reuse have become very important because recycling contributes to supplying the materials and protecting the environment of society. It is not realistic that all waste materials are capable of being recycled, because recycling metals have fundamentally been competing with primary production. In this point of view, prior to discuss on current recycling technology of waste resources in Korea, world wide trend and Korean recent activity in the supply-demand far minerals and energy resources are reviewed.

Sustainable Environmental Science & Recycling Technology Education for High School and Middle Schools: Global Scenario

  • Thenepalli, Thriveni;Chilakala, Ramakrsihna;Ahn, Ji Whan
    • Journal of Energy Engineering
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    • v.28 no.1
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    • pp.45-48
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    • 2019
  • Currently, the global atmosphere around the world is altering at a very rapid pace. Among those changes, some are beneficial, but most of the changes are lead to destruction to our planet. The area of environmental science is a significant resource for learning more about these changes. Due to the urbanization, the human population is increasing, natural resources becoming very limited. To solve the limited resources issues, recycling is absolutely an alternative source for the new demands and limitations. Recycling education is very important to raise awareness among students and their communities about the need for recycling and what materials are recyclable locally. In this paper, we reported the role of sustainability science and technology and the impact of recycling research education in the middle schools, both in developing countries and Asian countries and also we included the brief data of global recycling of waste.

Improvement of ELV Recycling Technology - Focused on achievement of ELV recycling rate 95% - (자동차 재활용의 진보 - 자동차 재활용율 95%의 탐색 -)

  • Oh, Jae-Hyun
    • Resources Recycling
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    • v.23 no.2
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    • pp.71-80
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    • 2014
  • In order to survey the numerical achievement of ELV recycling rate 95%, the definition of ELV recycling rate, material components of the automobile, improvement of ELV dismantling technology and status of ASR recycling were reviewed. On the other hand, field survey in details for dismantling works were conducted at Incheon Junkyard and H Junkyard. Although material recycling rate has been approaching 94% in dismantling step, status of ASR recycling is very unstable due to a ban of ASR recycling at cement kiln. It is clear that ASR recycling acts as a bottle neck in the ELV recycling. Therefore, it is important energy recycling of ASR should be enlarged to achieve ELV recycling rate 95%.

Performance Model and Fuel Utilization Analysis of 7 kW MCFC using ASPEN-PLUS (ASPEN-PLUS를 이용한 7 kW MCFC의 성능 모델 및 연료 이용률 분석)

  • Kang, B.S.;Ahn, K.S.;Koh, J.H.;Lim, H.C.
    • Proceedings of the KIEE Conference
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    • 1998.07a
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    • pp.55-57
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    • 1998
  • Molten carbonate fuel cell (MCFC) power plant is expected to be one of the most promising future power generation system for the electric utilities because of its high efficiency, environmental suitability and capability of using coal as fuel. To get such attractive performance, it is necessary to consider optimizing operation and gas recycling system. This paper describes the simulation results of 7 kW MCFC stack in KEPRI and the effects of the three possible gas recycling operations, i.e. cathode gas recycling, anode gas recycling, anode gas recycling with catalytic burner.

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Assessment of the Recycling of Resource Efficiency through investigating Treatment Flow of the Recyclables (재활용성 폐기물의 처리흐름 분석을 통한 자원순환성 평가)

  • Kim, Jaenam;Kim, Sujin;Phae, Chaegun
    • Journal of the Korea Organic Resources Recycling Association
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    • v.20 no.2
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    • pp.76-88
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    • 2012
  • In this study, the treatment flow of the recyclables(paper, plastic, metal, etc.) collected and separated from MSW was investigated throughout entire phase from separation and collection to final disposal. Based on the site survey, most recyclables came into six material recovery facilities were comparatively managed well. However, some of recyclables showed irrelatively transportation flow. Because the main income source of the recyclables transportation companies is profit margin between treatment and transportation cost based on economics only therefore, it occurs an unnecessary route and long distance transportation while going to final destination. This unreasonable system should be a serious problem relating establishment of the resource recycling system. As a result of this study, in order to establish the reasonably resource recycling system, recycling center including material recovery facility has to manage the recyclables generated in close range preferentially. Also integrated its treatment system over a wide area will need to be considered as a basic step for the reasonable reasonably resource recycling system.