ARTÍCULO
TITULO

Zero Waste of Sago Industry

Thivyah B.    

Resumen

Large production of sago flour has indeed brought a negative effect to rivers due to improper treatment of Sago factory?s waste before discharging. In order to maintain sustainability in Sago industry, a proper treatment and utilisation of industry waste should be implemented to maintain the continuation of Sago Industry cycle. In this project, we proposed proper treatment of sago waste, sago hampas and Sago Mill Effluent (SME). Sago hampas from sago production can be converted to useful animal feed due to high content of carbohydrate while SME can be treated and utilised to produce biogas and bioflocculant. The inlet of animal feed production will be sago hampas and water which produces animal feed of 10% moisture, wastewater and hot vapour. Sago hampas undergoes dewatering and drying process before packaged into pellets for animal feed distributions. On the other hand, in SME treatment, the inlet will be untreated SME and oxygen gas which will be converted biogas, bioflocculant, biomass sludge, carbon dioxide gas and treated SME. The SME undergoes anaerobic digestion by methanogenic bacteria to produce biogas which is later purified to 99.9% of Methane. The remaining SME undergoes aerobic treatment by bioflocculant producing bacteria to produce bioflocculant. The treated SME is later polished further by phytoremediation process before discharged into river. The COD reduction in anaerobic treatment is 85-95% while in aerobic treatment is 60-70%. The treated SME will follow standard A effluent before been released to the environment. Safety and hazards are important aspects taken into consideration especially in handling flammable biogas and biohazardous bacteria with proper method equipment. All in all, we believe the idea of merging treatment and sago production plants with the benefits from green technology processes is worthy to be considered.

 Artículos similares

       
 
Sonia Guerra-Rodríguez, Paula Oulego, Encarnación Rodríguez, Devendra Narain Singh and Jorge Rodríguez-Chueca    
The advancement of science has facilitated increase in the human lifespan, reflected in economic and population growth, which unfortunately leads to increased exploitation of resources. This situation entails not only depletion of resources, but also inc... ver más
Revista: Water

 
Theofani Tzevelekou, Paraskevi Lampropoulou, Panagiota P. Giannakopoulou, Aikaterini Rogkala, Petros Koutsovitis, Nikolaos Koukouzas and Petros Petrounias    
?he smelting process can be applied for the direct recycling of the nickel ferrous dust collected in the gas cleaning systems of the rotary kilns (R/Ks) during the pre-reduction of laterite ore in the course of ferronickel production by the pyrometallurg... ver más
Revista: Applied Sciences

 
Gennaro Bufalo, Bruno Molino and Luigi Ambrosone    
Zero-waste is an ambitious goal to encourage sustainable production, consumption optimum recycling and resource recovery. The recycling and resource recovery of chrome-tanned leather waste is a difficult proposition because of the three-dimensional chemi... ver más
Revista: Applied Sciences

 
Marcin H. Kudzin, Anna Kaczmarek, Zdzislawa Mrozinska and Joanna Olczyk    
In this study, copper films were deposited by magnetron sputtering on poly(ethylene terephthalate) knitted textile to fabricate multi-functional, antimicrobial composite material. The modified knitted textile composites were subjected to microbial activi... ver más
Revista: Applied Sciences

 
Ying Wang, Wen Ni, Siqi Zhang, Jia Li and Prannoy Suraneni    
Mixing municipal solid waste incineration fly ash (MSWIFA) with industrial by-products such as ground granulated blast furnace slag (GGBFS) and ladle furnace slag (LFS) can lead to a hardened system which can encapsulate the heavy metals present in the M... ver más
Revista: Applied Sciences