1.0. Introduction 4044 2.0. Biomass Chemistry and Growth Rates 4047 2.1. Lignocellulose and Starch-Based Plants 4047 2.2. Triglyceride-Producing Plants 4049 2.3. Algae 4050 2.4. Terpenes and Rubber-Producing Plants 4052 3.0. Biomass Gasification 4052 3.1. Gasification Chemistry 4052 3.2. Gasification Reactors 4054 3.3. Supercritical Gasification 4054 3.4. Solar Gasification 4055 3.5. Gas Conditioning 4055 4.0. Syn-Gas Utilization 4056 4.1. Hydrogen Production by Water−Gas Shift Reaction 4056

/pdf/synthesis-of-transportation-fuels-from-biomass-chemistry-3sckhzoqoz.pdf

Synthesis of transportation fuels from biomass: chemistry, catalysts, and engineering.

https://chemical.eng.usm.my/bassim/PDF/adsorption%20isotherm.pdf

Insights into the modeling of adsorption isotherm systems

Application of low-cost adsorbents for dye removal – A review

Dye and its removal from aqueous solution by adsorption: A review

Adsorption of methylene blue on low-cost adsorbents: A review

Batch adsorption of 2,4-dichlorophenol onto activated carbon derived from agricultural waste

Melamine-nitrogenated mesoporous activated carbon derived from rice husk for carbon dioxide adsorption in fixed-bed

A cost effective method for regeneration of durian shell and jackfruit peel activated carbons by microwave irradiation

Improved production of fuel oxygenates via glycerol acetylation with acetic acid

This work investigates the possibility of utilizing carbonized fish ( Labeo rohita ) scales (CFS) as low-cost materials for the adsorption of reactive orange 16 dye (RO16) through batch processing. The textural and morphological characteristics of CFS were evaluated which showed mesoporous structure with BET surface area of 213.82 m 2 /g and average pore diameter of 5.116 nm. The effects of initial RO16 concentration (25–400 mg/l), solution pH (3–13), and temperature (30–50 °C) on the adsorption efficiency of the prepared CFS were demonstrated. The equilibrium isotherm data were best correlated using the Freundlich equation. The prepared CFS exhibited maximum adsorption capacities of 105.8, 107.2, and 114.2 mg/g at 30 °C, 40 °C, and 50 °C, respectively. The pseudo-second-order model well represented the adsorption kinetics. The prepared CFS had a high adsorption capacity for RO16 and could be utilized effectively for the removal of reactive dyes from wastewater.

B.H. Hameed

Papers

Batch adsorption of 2,4-dichlorophenol onto activated carbon derived from agricultural waste

Melamine-nitrogenated mesoporous activated carbon derived from rice husk for carbon dioxide adsorption in fixed-bed

A cost effective method for regeneration of durian shell and jackfruit peel activated carbons by microwave irradiation

Improved production of fuel oxygenates via glycerol acetylation with acetic acid

Mesoporous carbonaceous material from fish scales as low-cost adsorbent for reactive orange 16 adsorption