2022 - Research.com Engineering and Technology in Malaysia Leader Award
His primary scientific interests are in Pyrolysis, Waste management, Waste oil, Activated carbon and Diesel fuel. His Pyrolysis research includes themes of Heat of combustion, Raw material and Adsorption. His Waste management study incorporates themes from Scientific method and Biomass.
His Waste oil research integrates issues from Microwave pyrolysis and Syngas. His study looks at the intersection of Activated carbon and topics like Carbon with Biofuel, Banana peel, Malachite green and Mesoporous material. His Chemical engineering research focuses on Catalysis and how it relates to Activation energy.
His primary areas of study are Pyrolysis, Waste management, Chemical engineering, Biofuel and Biochar. Su Shiung Lam combines subjects such as Yield, Activated carbon, Heat of combustion and BET theory with his study of Pyrolysis. His Waste management research is multidisciplinary, incorporating perspectives in Scientific method and Renewable energy.
His study in Chemical engineering is interdisciplinary in nature, drawing from both Carbon, Carbonization, Catalysis and Adsorption. His research in Biofuel intersects with topics in Biomass, Fossil fuel, Raw material and Biodiesel. Su Shiung Lam has researched Biomass in several fields, including Process engineering and Pulp and paper industry.
His scientific interests lie mostly in Biofuel, Waste management, Biomass, Raw material and Pyrolysis. His Biofuel study combines topics from a wide range of disciplines, such as Biodiesel, Fossil fuel, Process engineering and Renewable energy. As part of the same scientific family, Su Shiung Lam usually focuses on Waste management, concentrating on Syngas and intersecting with Fuel gas.
His Biomass study combines topics in areas such as Environmentally friendly and Pulp and paper industry. His research integrates issues of Food science, Medium chain fatty acid, Lactobacillus, Biodegradable waste and Lactic acid in his study of Raw material. Su Shiung Lam does research in Pyrolysis, focusing on Biochar specifically.
Su Shiung Lam mainly investigates Biofuel, Waste management, Syngas, Fossil fuel and Biochar. The study incorporates disciplines such as Raw material, Biomass, Renewable energy, Biodiesel production and Pulp and paper industry in addition to Biofuel. His work carried out in the field of Raw material brings together such families of science as Bioenergy and Process engineering.
In his study, which falls under the umbrella issue of Renewable energy, Biogas is strongly linked to Pyrolysis. His work deals with themes such as Contamination, Nuclear power and Soil conditioner, which intersect with Waste management. His research in Biochar intersects with topics in Photosynthesis, Photosynthetic pigment, Stomatal conductance and Catalase.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Valorization of biomass waste to engineered activated biochar by microwave pyrolysis: Progress, challenges, and future directions
Shin Ying Foong;Shin Ying Foong;Rock Keey Liew;Yafeng Yang;Yoke Wang Cheng.
Chemical Engineering Journal (2020)
A Review on Waste to Energy Processes Using Microwave Pyrolysis
Su Shiung Lam;Howard A. Chase.
Progress in waste oil to sustainable energy, with emphasis on pyrolysis techniques
Su Shiung Lam;Su Shiung Lam;Rock Keey Liew;Ahmad Jusoh;Cheng Tung Chong.
Renewable & Sustainable Energy Reviews (2016)
Oil palm waste: An abundant and promising feedstock for microwave pyrolysis conversion into good quality biochar with potential multi-applications
Rock Keey Liew;Wai Lun Nam;Min Yee Chong;Xue Yee Phang.
Process Safety and Environmental Protection (2017)
Microwave-heated pyrolysis of waste automotive engine oil: Influence of operation parameters on the yield, composition, and fuel properties of pyrolysis oil
Su Shiung Lam;Su Shiung Lam;Alan D. Russell;Chern Leing Lee;Howard A. Chase.
Microwave vacuum pyrolysis of waste plastic and used cooking oil for simultaneous waste reduction and sustainable energy conversion: Recovery of cleaner liquid fuel and techno-economic analysis
Su Shiung Lam;Su Shiung Lam;Wan Adibah Wan Mahari;Yong Sik Ok;Wanxi Peng.
Renewable & Sustainable Energy Reviews (2019)
Microwave-assisted pyrolysis with chemical activation, an innovative method to convert orange peel into activated carbon with improved properties as dye adsorbent
Su Shiung Lam;Su Shiung Lam;Rock Keey Liew;Yee Mun Wong;Peter Nai Yuh Yek.
Journal of Cleaner Production (2017)
Microwave pyrolysis with KOH/NaOH mixture activation: A new approach to produce micro-mesoporous activated carbon for textile dye adsorption
Rock Keey Liew;Elfina Azwar;Peter Nai Yuh Yek;Xin Yi Lim.
Bioresource Technology (2018)
Conventional and emerging technologies for removal of antibiotics from wastewater
Bao Lee Phoon;Chong Cheen Ong;Mohamed Shuaib Mohamed Saheed;Pau Loke Show.
Journal of Hazardous Materials (2020)
A critical review of the effects of pretreatment methods on the exergetic aspects of lignocellulosic biofuels
Salman Soltanian;Mortaza Aghbashlo;Fatemeh Almasi;Homa Hosseinzadeh-Bandbafha.
Energy Conversion and Management (2020)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: