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Tony Hadibarata
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idwm@tecnoscientifica.com
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Editorial Office - Industrial and Domestic Waste Management Jalan Asem Baris Raya No 116 Kebon Baru, Tebet, Jakarta Selatan Jakarta 12830, Indonesia
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Industrial and Domestic Waste Management
Published by Tecno Scientifica
ISSN : -     EISSN : 28094255     DOI : https://doi.org/10.53623/idwm.v2i1
Core Subject : Social, Engineering,
Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Engineering Environmental Science
The journal is intended to provide a platform for research communities from different disciplines to disseminate, exchange and communicate all aspects of industrial and domestic waste management. The topics of this journal include, but are not limited to: Address waste management policy, education, and economic and environmental assessments Pollution prevention, clean technologies, conservation/recycling/reuse Multicriteria assessment of waste treatment technologies Stakeholder role: technology implementation, future technology management strategies Participatory decision making, integration of policies/research in the waste sector Case studies and environmental impact analysis in the waste sector Air, water, soil, groundwater, radiological pollution, control/management Environmental pollution, prevention/control, waste treatment/management Water and municipal/agricultural/industrial wastewater and waste treatment Solid/hazardous/biosolids/residuals waste, treatment/minimization/disposal/management Environmental quality standards, legislation, regulations, policy Public/environmental health, environmental toxicology, risk assessment Sources/transport/fate of pollutants in the environment; remediation, restoration Mathematical/modelling techniques, case studies
Arjuna Subject : Teknik (semua kategori) - Teknik (Lain-Lain)
Articles 5 Documents
 1 
Search results for , issue "Volume 1 - Issue 1 - 2021" : 5 Documents clear
Green Building Practices on Waste Minimization in China Construction Industry Lee, Bernice Xin Yi; Ponraj, Mohanadoss; Widyasamratri, Hasti; Wang, Jie
Industrial and Domestic Waste Management Volume 1 - Issue 1 - 2021
Publisher : Tecno Scientifica Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (534.5 KB) | DOI: 10.53623/idwm.v1i1.36

Abstract

In China, a common practice for construction waste management is to dispose of it in landfills. A 5% construction waste recycling rate and ongoing insufficient landfilling practice resulted in decreased environmental and socioeconomic well-being. Management hierarchy that starts with rethink, redesign, reduce, reuse, refurbish, recycle, incineration, and finally disposal is a probable strategy to facilitate construction waste minimization in China. The green building concept pursued by China also served as a promising tool in evaluating the performance of Chinese green buildings. Barriers include lack of standard operating procedure in waste minimization, immature recycling technology and an undeveloped recycling market, leading to poor performance in construction waste minimization. Several strategies are proposed to ameliorate the current condition in China's construction sector. Even though results reveal that China falls behind in the engagement of green building compared to developed countries, green materials are utilized in various building structures such as flooring, roofs, walls, and outdoor pavements. Lastly, the benefits and shortcomings of two green material technologies, in particular material selection and recycling, applied in China were reviewed.
Utilization of Moringa oleifera as Natural Coagulant for Water Purification Ng, Meng Hong; Elshikh, Mohamed Soliman
Industrial and Domestic Waste Management Volume 1 - Issue 1 - 2021
Publisher : Tecno Scientifica Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (323.296 KB) | DOI: 10.53623/idwm.v1i1.41

Abstract

The plant-based natural coagulant has the potential to substitute the chemical coagulant in the water treatment process. In this work, the potential of plant-based natural coagulants in the ability of turbidity removal was identified. The Moringa oleifera seed was selected for the batch analysis test such as pH, contact time, agitation, and dosage. The high alkaline water decreases the effectiveness of plant-based natural coagulants. The agitation and contact time show the importance of the coagulation process. The optimum turbidity removal rate in pH is 4, the contact time is 60 seconds and 3000 seconds for coagulation and flocculation, respectively, the agitation is 300 RPM and 30 RPM for coagulation and flocculation, and lastly, the dosage is 10 g of Moringa oleifera seed. Finally, the plant-based natural coagulants demonstrated the ability to remove turbidity and could be used in place of chemical coagulants.
Sustainable Technology in Developed Countries: Waste Municipal Management Hoareau, Carol Emilly; Ahmad, Noraziah; Nuid, Maria; Rubiyatno; Khoi, Dao Nguyen; Kristanti, Risky Ayu
Industrial and Domestic Waste Management Volume 1 - Issue 1 - 2021
Publisher : Tecno Scientifica Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (311.878 KB) | DOI: 10.53623/idwm.v1i1.49

Abstract

As more studies were conducted and global events unfold, a greater emphasis is being placed on the importance of preserving the Earth's natural resources and cycles before we face a catastrophic climate crisis. Thus, developed countries are constantly adapting their policies and legislation to promote green development for the sake of sustainable development, which benefits both the environment and the socioeconomic segment. As populations grow and living standards improve, more waste is generated. Appropriate municipal waste management is necessary to avoid harm to the environment, wildlife, and human health. Sustainable municipal solid waste management is even included in the United Nations' (UN) Sustainable Development Goals, which aim to improve the world's environment and economy. The European Union (EU) member states' waste management systems can be considered exemplary. In some countries, landfills have been prohibited, promoting the use of more sustainable technologies such as organic waste incineration, recycling, and composting. However, a divide exists between member countries, with some lagging behind in terms of waste management strategies. Thus, this paper examined the current state of municipal waste in EU member states, followed by a review of the various disposal technologies implemented. The difficulties and environmental concerns that must be overcome are discussed, as are the recommendations and possible future directions.
Scenario of Municipal Waste Management in Malaysia Liew, Zachary Raphael; Monir, Minhaj Uddin; Kristanti, Risky Ayu
Industrial and Domestic Waste Management Volume 1 - Issue 1 - 2021
Publisher : Tecno Scientifica Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (195.836 KB) | DOI: 10.53623/idwm.v1i1.50

Abstract

Malaysia has rapidly modernized, with most of the population now residing in cities and the remainder in rural or remote areas. The amount of municipal solid waste generated has increased in tandem with the country's rapid urbanization in response to that statement. Due to a lack of connectivity in rural areas, there may be insufficient infrastructure for a proper waste management system. As a result, illegal waste dumping was common, and landfills' massive volumes of waste may contribute to greenhouse gas emissions. The Malaysian government has responded by taking the necessary steps to upgrade the country's current waste management system in order to better manage municipal solid waste disposal. This research looks at how energy recovery from accumulated waste can be used as a renewable energy source, as well as the current issues, challenges, and proposed solutions. Methane gas produced as a byproduct of waste decomposition in landfills or disposal sites was used to generate electricity more efficiently and sustainably, resulting in a positive economic and environmental outcome.
Malaysia Moving Towards a Sustainability Municipal Waste Management Tang, Yien Yu; Tang, Kuok Ho Daniel; Maharjan, Amit Kumar; Abdul Aziz, Azrina; Bunrith, Seng
Industrial and Domestic Waste Management Volume 1 - Issue 1 - 2021
Publisher : Tecno Scientifica Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (490.167 KB) | DOI: 10.53623/idwm.v1i1.51

Abstract

The elevation of waste generation subsequent to population growth has become a severe environmental topic in Malaysia. Since most of the waste is being dumped into a landfill, the open dumpsite, or unsanitary landfills which are not constructed with proper engineering plan, severe impacts on the environment result. The energy demand in Malaysia increased with the growing population, but reliance on fossil fuels to generate electricity has created another greenhouse gas contributor. Alternatively, waste-to-energy technology solves the problem of increasing waste by converting the waste to a renewable energy source. Malaysia has moved towards landfill gas recovery system and incineration for waste energy recovery. The recovery system and refuse-derived fuel plant achieved expectation; however, the incineration plants have failed due to the opposition of the public, lack of funding and technician expertise, and other technical issues. The solid waste management practices lacking separation and recycling sources, become an obstacle for development. The government puts effort into solving the current issue by promoting recycling in the public, enforcing the legislation, and approaching new technologies for better solid waste management practice in the future. This paper aims to discuss the application of energy recovery from municipal solid waste in Malaysia.

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