Microwave pyrolysis of lignocellulosic biomass––a contribution to power Africa

Nomanbhay, Saifuddin; Salman, Bello; Hussain, Refal; Ong, Mei Yin

doi:10.1186/s13705-017-0126-z

Cited by 50 publications

(20 citation statements)

References 120 publications

(127 reference statements)

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“…The relationships among heating, bio-oil yield, and feedstock particle size, moisture content, inorganics, and organics in microwave-assisted pyrolysis are given in detail in Table 7 (100). An up-to-date summary of recent studies on advances on the microwave-assisted pyrolysis methods have been reviewed extensively (100). The review provides information that will aid in the development of a newer microwave-assisted pyrolysis system.…”

Section: Microwave-assisted Pyrolysis Processmentioning

confidence: 99%

Sustainability of biodiesel production in Malaysia by production of bio-oil from crude glycerol using microwave pyrolysis: a review

Nomanbhay

Hussein

Ong

2018

Green Chemistry Letters and Reviews

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Biodiesel being one of the most promising renewable biofuels has seen rapid increase in production capacity due to high demand for diesel replacement; along with oversupply of its by-product, crude glycerol. Developing new industrial usage for glycerol is essential to defray the cost and sustainability of biodiesel industry and to promote the biodiesel industrialization. One of the approaches is by the transformation of glycerol into a liquid, referred as bio-oil through pyrolysis technology. Bio-oils produced by pyrolysis processes can be upgraded to produce transportation fuels or for power generation. However, current state of pyrolysis technologies are still major hurdles their development with respect to its commercial applications. Recently, microwave technology has attracted considerable attention as effective method for significantly reducing reaction time, improving the yields and selectivity of target products. Hence, this review strives extensively towards addressing the application of microwave-assisted technology applied to the pyrolysis process as a way of cost-effective and operationally feasible processes to directly utilize crude glycerol. The present review will focus on the pyrolyzed liquid product (bio-oil) derived by employing the microwave-assisted pyrolysis method. This review concludes that microwaveassisted glycerol conversion technology is a promising option as an alternative method to conventional glycerol conversion technology.

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Section: Microwave-assisted Pyrolysis Processmentioning

confidence: 99%

Sustainability of biodiesel production in Malaysia by production of bio-oil from crude glycerol using microwave pyrolysis: a review

Nomanbhay

Hussein

Ong

2018

Green Chemistry Letters and Reviews

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“…From the Figure-10 and 11, the influence of adsorption process can be observed by increasing its adsorbent dosage. The removal efficiency increases with increase in the amount of adsorbent dosage; this is due to the greater availability of the exchangeable sites for the ions 18 . After a certain amount of adsorbent (5-6gms), there is no further increase in adsorption.…”

Section: Effect Of Adsorbent Dosementioning

confidence: 99%

Adsorptive Removal of Lead and Cadmium Ions using Cross-Linked CMC Schiff Base: Isotherm, Kinetics and Catalytic Activity

Moganavally¹,

Deepa²,

Sudha³

et al. 2016

Orient. J. Chem

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Water plays a vital role to human and other living organisms. Due to the effluent coming from chemical industries, the industrial activity, contamination of ground water level is goes on increasing nowadays. Therefore, there is a need to develop technologies that can remove toxic pollutants in wastewater. Hence the cross linked Carboxymethyl chitosan(CMC)/ 2,3-dimethoxy Benzaldehyde Schiff base complex has been synthesized and characterized by using FT-IR and SEM analysis. All these results revealed that cross linked Schiff base has formed with high adsorption capacity. The prepared effective adsorbent used for the removal of heavy metals like lead (II) and cadmium (II) ions from aqueous solution and the adsorption data follow the Freundlich model, which follows pseudo first order kinetics. Effect of various parameters like solution pH, adsorbent dose and contact time for the removal of heavy metals has been studied. The synthesized sample undergoes catalytic oxidation process significantly at 24 hrs. The results showed that cross linked Schiff base is an effective, eco-friendly, low-cost adsorbent.

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“…In conjunction with that, many parties are aware of the necessity of reducing the reliance on petroleum-based oil that has been exploited for several purposes. Currently, many concerns have focussed on the energy, including electricity and transportation that cause a huge negative impact on carbon emission [5,6]. However, there is still a lack of concern on petroleum-based plastic production even though it contributes only a small portion, around 1% of the total global carbon emission [7,8].…”

Section: Introductionmentioning

confidence: 99%

Estimation of carbon dioxide (CO ₂ ) reduction by utilization of algal biomass bioplastic in Malaysia using carbon emission pinch analysis (CEPA)

et al. 2020

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Carbon dioxide (CO 2) emission will increase due to the increasing global plastic demand. Statistical data shows that plastic production alone will contribute to at least 20% of the annual global carbon budget in the near future. Hence, several alternative methods are recommended to overcome this problem, such as bio-product synthesis. Algae consist of diverse species and have huge potential to be a promising biomass feedstock for a range of purposes, including bio-oil production. The convenient cultivation method of algae could be one of the main support for algal biomass utilization. The aim of this study is to forecast and outline the strategies in order to meet the future demand (year 2050) of plastic production and, at the same time, reduce CO 2 emission by replacing the conventional plastic with bio-based plastic. In this paper, the analysis for 25%, 50% and 75% CO 2 reduction has been done by using carbon emission pinch analysis. The strategies of biomass utilization in Malaysia are also enumerated in this study. This study suggested that the algal biomass found in Malaysia coastal areas should be utilized and cultivated on a larger scale in order to meet the increasing plastic demand and, at the same time, reduce carbon footprint. Some of the potential areas for macroalgae sea-farming cultivation in Sabah coastline (Malaysia), comprised of about 3885 km 2 (388,500 ha) in total, have been highlighted. These potential areas have the potential to produce up to 14.5 million tonnes (Mt)/y of macroalgae in total, which can contribute 370 Mt of phenol for bioplastic production.

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Microwave pyrolysis of lignocellulosic biomass––a contribution to power Africa

Cited by 50 publications

References 120 publications

Sustainability of biodiesel production in Malaysia by production of bio-oil from crude glycerol using microwave pyrolysis: a review

Sustainability of biodiesel production in Malaysia by production of bio-oil from crude glycerol using microwave pyrolysis: a review

Adsorptive Removal of Lead and Cadmium Ions using Cross-Linked CMC Schiff Base: Isotherm, Kinetics and Catalytic Activity

Estimation of carbon dioxide (CO ₂ ) reduction by utilization of algal biomass bioplastic in Malaysia using carbon emission pinch analysis (CEPA)

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Microwave pyrolysis of lignocellulosic biomass––a contribution to power Africa

Cited by 50 publications

References 120 publications

Sustainability of biodiesel production in Malaysia by production of bio-oil from crude glycerol using microwave pyrolysis: a review

Sustainability of biodiesel production in Malaysia by production of bio-oil from crude glycerol using microwave pyrolysis: a review

Adsorptive Removal of Lead and Cadmium Ions using Cross-Linked CMC Schiff Base: Isotherm, Kinetics and Catalytic Activity

Estimation of carbon dioxide (CO 2 ) reduction by utilization of algal biomass bioplastic in Malaysia using carbon emission pinch analysis (CEPA)

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Product

Resources

About

Estimation of carbon dioxide (CO ₂ ) reduction by utilization of algal biomass bioplastic in Malaysia using carbon emission pinch analysis (CEPA)