Sustainable Development and Eco-friendly Waste Disposal Technology for the Local Community

Kerdsuwan, Somrat; Laohalidanond, Krongkaew; Jangsawang, Woranuch

doi:10.1016/j.egypro.2015.11.493

Cited by 25 publications

(16 citation statements)

References 3 publications

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“…An efficient interorganizations/intraorganization communication, sharing of innovative ideas, and developing healthy organizational culture in implementing of SSC activities can be achieved through information sharing among industries [35,36]. Sustainable technologies are cleaner and reconfigurable and even recyclable, which do not harm the nature but need high investment [37,38]; also waste treatment is another important area that needs attention in the sustainable development strategy.…”

Section: Information Quality and Sharing (S10)mentioning

confidence: 99%

Analysis of Success Factors to Implement Sustainable Supply Chain Management Using Interpretive Structural Modeling Technique: A Real Case Perspective

Yang

Movahedipour

Zeng

et al. 2017

Mathematical Problems in Engineering

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Sustainability draws increased supply chain management (SCM) attention. This article analyzes critical success to the assessment, evaluation, and attainment of sustainable supply chain management (SSCM), assessed through critical-success identification and qualitative data analysis. Namely, a literature review selected of 188 articles, published between January 1994 and November 2016, helps identify the most influential success factors. The qualitative data analysis pertains to fifteen such successes, identified in the literature review and through our collaboration with other academic researchers and industrial specialists. Notably, the study's qualitative data analysis, interpretive structural modeling (ISM), unconceals the mutual impact among the most prominent SSCM success factors. The economic benefits and environmental awareness of suppliers are recognized as the most significant success factors, which could allow business enterprises and other organizations to implement a SSCM framework, with intentionality and the sustainability in their business. The article concludes with suggestions for future research directions.

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Section: Information Quality and Sharing (S10)mentioning

confidence: 99%

Analysis of Success Factors to Implement Sustainable Supply Chain Management Using Interpretive Structural Modeling Technique: A Real Case Perspective

Yang

Movahedipour

Zeng

et al. 2017

Mathematical Problems in Engineering

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“…This paper discussed one of Kampung Sehat activity that emphasis to the environment [27], which known as Jimpitan Sampah. This program inspired by Bank of Waste (Bank Sampah) concept, with a light modification.…”

Section: Community Development: Local Community Empowerment Of Normentioning

confidence: 99%

10 Environmental Innovations in Harmony of Sustainable Electricity Generation: An Experience of Combined-Cycle Power Plant of Priok, Indonesia

Permatasari¹,

Putranto²,

Tjahjonoputro³

2017

IJESD

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“…Since the desired capacity of the dumping is one ton per batch with a bulk density of waste of 200 kg/m 3 , the MSW volume in one batch is 5 m 3 . However, the volume of the PCC must be at least 2 times the MSW volume in the chamber in order to have enough space for the combustion process, and consequently, the design volume of the PCC will be 10 m 3 . Knowing the width of the garbage dump truck, the dimension of the PCC can be determined.…”

Section: Innovative Design and Manufacturing Of Feeding Systemmentioning

confidence: 99%

“…However, due to the small capacity of facilities, the burning of waste does not yield enough by-product energy to produce heat or electricity, which causes high operating cost since additional fuel is required to achieve a high destruction temperature [2]. Moreover, with the strengthening emission standards nowadays, many onsite incinerators remain unused [3]. The objective of this work is to redesign and manufacturing of the Green, Eco, Innovative Design and Manufacturing technology of a 1-ton per batch MSW in order to use the incinerator at the source of MSW generation.…”

Section: Introductionmentioning

confidence: 99%

Green, Eco, Innovative Design, and Manufacturing Technology of a 1-Ton per Batch Municipal Solid Waste Incinerator

Kerdsuwan

2016

MATEC Web Conf.

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Abstract. The thermal treatment of waste by incineration is considered an ultimate solution in order to get rid of waste properly by using the combustible properties of waste and transforming them into inert form and gaseous emission, with the main advantage of a huge reduction in mass and volume of treated waste, destruction of the dangerous components in waste, and obtaining green and clean energy from the exothermal reaction from the completed combustion process. In order to achieve the main goal of incineration, a good design, construction, supervision, and intensive operation and maintenance must be taken into account, especially for the small-scale incinerator. This research will deal with the green, innovative, and eco design and manufacturing technology of a 1-ton per batch municipal solid waste (MSW) incinerator. The concept design of the incinerator will focus on the design of the feeding process where only one batch of waste will be discharged into the combustion chamber at one time instead of the semi-feed process, as found in the conventional incinerator. This will ease the operation of the operator and reduce the operating cost. Moreover, the innovative design includes the redesign of combustion air injection into either the primary or secondary combustion chamber in order to achieve the 3Ts of combustion (time, temperature. and turbulence). This design can eliminate the use of an auxiliary burner in the primary combustion chamber. Rethinking the innovative design of using recirculation hot flue gas for preheating of wet garbage in order to pre-dry the waste before combustion is also taken into account. The manufacturing process of the wall composition as well as other parts of the incinerator are also examined.

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Sustainable Development and Eco-friendly Waste Disposal Technology for the Local Community

Cited by 25 publications

References 3 publications

Analysis of Success Factors to Implement Sustainable Supply Chain Management Using Interpretive Structural Modeling Technique: A Real Case Perspective

Analysis of Success Factors to Implement Sustainable Supply Chain Management Using Interpretive Structural Modeling Technique: A Real Case Perspective

10 Environmental Innovations in Harmony of Sustainable Electricity Generation: An Experience of Combined-Cycle Power Plant of Priok, Indonesia

Green, Eco, Innovative Design, and Manufacturing Technology of a 1-Ton per Batch Municipal Solid Waste Incinerator

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