Nishanth Chemmangattuvalappil

Contact

• workRoom CLG08 C
  Malaysia Campus
  Jalan Broga
  43500 Semenyih
  Selangor Darul Ehsan
  Malaysia
• work+6 (03) 8924 8122
• Nishanth.C@nottingham.edu.my

Biography

Dr. Nishanth Chemmangattuvalappil is a Professor of Chemical Engineering in the department of Chemical and Environmental Engineering at University of Nottingham Malaysia. He received his PhD in Chemical Engineering from Auburn University, AL, USA (2010). He worked as a Post-doctoral fellow at University of Pittsburgh, PA, USA and later at Auburn University. His main areas of expertise include product and molecular design, mixture design, machine learning and integrated biorefineries. His current work focuses on the application of molecular design concepts on reactive systems, integration of molecular design techniques into the design of biorefineries and application of machine learing tools in product design.

Expertise Summary

Product and molecular design, mixture design, machine learning and integrated biorefineries.

Teaching Summary

I teach various chemical engineering design modules/subjects for both undergraduate (BEng/MEng) and postgraduate taught courses (MSc). These include the following:

• Chemical Product Design (MEng/MSc)
• Multi-component separations(BEng/MEng)
• Process Engineering Project (BEng/MEng)

Besides, I supervise the following projects:

• Chemical Engineering Design Project (BEg/MEng)
• MEng Engineering Project - Advanced Design (MEng)
• MENg research project (MEng)

Research Summary

Design of Ionic liquids for CO₂ capture

Greenhouse gases emission is known as the main factor of climate change, and carbon dioxide (CO₂) makes up vast majority of them. Carbon capture and storage (CCS) is a vital technology to mitigate industrial CO₂ emissions, which is mainly generated in power plants. Currently, post-combustion capture based on aqueous amine scrubbing is considered as the most suitable technology for CO₂ capture, especially in existing plants. However, the use of amine for CO₂ capture has some disadvantages, such as high energy required for solvent regeneration, high vapour pressure which lead to subsequent solvent loss, degradation of solvent, and plant corrosion. In my work, ionic liquids (ILs) are considered as possible alternative to amine solvents. Ionic liquids are organic salts which are liquid at and around room temperature. Due to their negligible vapour pressure, high thermal stability, and flexibility to tune the properties by matching cations and anions, ILs are now studied for many applications like refrigerants, mass separating agents and solvents. I work on developing a Computer-Aided Molecular Design (CAMD) approach for selection of optimal ILs specifically for CO₂ capture purpose. This approach utilises group contribution methods to estimate the physical and thermodynamic properties of ILs, by considering the structural constraints and allowed combination of cations and anions. The optimal IL obtained using this approach is shown to be able to perform desired absorption of CO₂ from combustion flue gas.

Novel product development techniques for palm oil-based biorefinery

With the awareness of environmental issues throughout the world, the global trend of development is heading towards sustainable development and green processes. Resource conservation is one of the approaches in compliance with the sustainable consumption and production (SCP) in industries. Same efforts have been done in palm oil mill as well. In the mill, various oil palm biomasses which are normally treated as waste are converted into value added products. Integrated biorefinery has the ability to achieve this by providing sustainable and environmentally benign alternatives for the production of bulk and fine chemicals from oil palm biomass. However, at present there is no systematic and efficient method to identify the potential products that can be produced from the conversion of biomass that meet customer requirements.

In my work, systematic methodologies to convert oil palm biomass into optimal products through the most efficient conversion pathways will be developed. Integration of chemical reaction pathway synthesis and product design is proposed to achieve this objective. Efficient product design techniques for the design of different chemicals that meet the customer requirements will be developed. To determine the optimal molecules of the product, systematic methodologies will be developed to represent product attributes in terms of properties of the product. In order to identify the optimum synthesis route to produce the chemicals from oil palm biomass, mathematical optimization based technique will be developed to determine the reaction pathways inside an integrated biorefinery. The developed methodologies will be applied in palm oil mill to convert oil palm biomass into the optimal products through the most efficient pathway.

Recent Publications

• JIA YONG TANG, BOAZ YI HENG CHUNG, JIA CHUN ANG, JIA WEN CHONG, RAYMOND R. TAN, KATHLEEN B. AVISO, NISHANTH G CHEMMANGATTUVALAPPIL and SUCHITHRA THANGALAZHY-GOPAKUMAR, 2024. Prediction model for biochar energy potential based on biomass properties and pyrolysis conditions derived from rough set machine learning Environmental Technology. 45(15), 2908–2922
• YONG, S.T, CHEMMANGATTUVALAPPIL, N. and FOO, DOMINIC Y. C.,, 2024. Students’ perception of non-placement work-integrated learning in chemical engineering: Work-related skills towards the post-pandemic future. South African Journal of Chemical Engineering (SAJCE). 47, 322-332
• SEEN YE LIM, NISHANTH G. CHEMMANGATTUVALAPPIL, VUI SOON CHOK, DENNY K.S. NG, AMNA QAISAR and LIK YIN NG, 2024. Computer-aided framework for the design of entrainer for palm process residue recovery Chemical Engineering Research and Design. 206, 499-510
• YICK EU CHEW, HO YAN LEE, YI PENG HENG, SHIE TECK TIEW, JIA WEN CHONG and NISHANTH G. CHEMMANGATTUVALAPPIL, 2024. Design of formulated fragrant products using rough set machine learning and molecular design tools Chemical Engineering Research and Design. 203, 305-320

• View all publications

• JIA YONG TANG, BOAZ YI HENG CHUNG, JIA CHUN ANG, JIA WEN CHONG, RAYMOND R. TAN, KATHLEEN B. AVISO, NISHANTH G CHEMMANGATTUVALAPPIL and SUCHITHRA THANGALAZHY-GOPAKUMAR, 2024. Prediction model for biochar energy potential based on biomass properties and pyrolysis conditions derived from rough set machine learning Environmental Technology. 45(15), 2908–2922
• YONG, S.T, CHEMMANGATTUVALAPPIL, N. and FOO, DOMINIC Y. C.,, 2024. Students’ perception of non-placement work-integrated learning in chemical engineering: Work-related skills towards the post-pandemic future. South African Journal of Chemical Engineering (SAJCE). 47, 322-332
• SEEN YE LIM, NISHANTH G. CHEMMANGATTUVALAPPIL, VUI SOON CHOK, DENNY K.S. NG, AMNA QAISAR and LIK YIN NG, 2024. Computer-aided framework for the design of entrainer for palm process residue recovery Chemical Engineering Research and Design. 206, 499-510
• YICK EU CHEW, HO YAN LEE, YI PENG HENG, SHIE TECK TIEW, JIA WEN CHONG and NISHANTH G. CHEMMANGATTUVALAPPIL, 2024. Design of formulated fragrant products using rough set machine learning and molecular design tools Chemical Engineering Research and Design. 203, 305-320
• JIA WEN CHONG, NISHANTH G. CHEMMANGATTUVALAPPIL and SUCHITHRA THANGALAZHY-GOPAKUMAR, 2023. AviationBiofuels:ConversionRoutesandChallenges. In: DOMINIC C.Y. FOO, MUSTAFA KAMAL TUN ABDUL AZIZ and SUZANA YUSUP, eds., Sustainable Technologies for the Oil Palm Industry 1. Springer Singapore. 33 - 85
• TIEW, SHIE TECK, CHEW, YICK EU, LEE, HO YAN, CHONG, JIA WEN, TAN, RAYMOND R., AVISO, KATHLEEN B. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2023. A Fragrance Prediction Model for Molecules Using Rough Set-based Machine Learning CHEMIE INGENIEUR TECHNIK. 95(3), 438-446
• JIA CHUN ANG, JIA YONG TANG, BOAZ YI HENG CHUNG, JIA WEN CHONG, RAYMOND R. TAN, KATHLEEN B. AVISO, NISHANTH G. CHEMMANGATTUVALAPPIL and SUCHITHRA THANGALAZHY-GOPAKUMAR, 2023. Development of predictive model for biochar surface properties based on biomass attributes and pyrolysis conditions using rough set machine learning Biomass and Bioenergy. 174, 106820
• BOAZ YI HENG CHUNG, JIA CHUN ANG, JIA YONG TANG, JIA WEN CHONG, RAYMOND R. TAN, KATHLEEN B. AVISO, NISHANTH G. CHEMMANGATTUVALAPPIL and SUCHITHRA THANGALAZHY-GOPAKUMAR, 2023. Rough set approach to predict biochar stability and pH from pyrolysis conditions and feedstock characteristics Chemical Engineering Research and Design. 198, 221-233
• HOO, WEY YING, OOI, JECKSIN, CHEMMANGATTUVALAPPIL, NISHANTH GOPALAKRISHNAN, CHONG, JIA WEN, LIM, CHUN HSION and EDEN, MARIO RICHARD, 2023. An Interpretable Predictive Model for Health Aspects of Solvents via Rough Set Theory Processes. 11(8),
• CHEUN, JIE-YING, LIEW, JOSHUA-YEH-LOONG, TAN, QIAN-YING, CHONG, JIA-WEN, OOI, JECKSIN and CHEMMANGATTUVALAPPIL, NISHANTH G., 2023. Design of Polymeric Membranes for Air Separation by Combining Machine Learning Tools with Computer Aided Molecular Design Processes. 11(7),
• JIA WEN CHONG, SUCHITHRA THANGALAZHY-GOPAKUMAR, KASTURI MUTHOOSAMY, NISHANTH G. CHEMMANGATTUVALAPPIL, 2022. Design of bio-oil additives via molecular signature descriptors using a multi-stage computer-aided molecular design framework Frontiers of Chemical Science and Engineering. 16(2), 168
• CHONG, JIA WEN, THANGALAZHY-GOPAKUMAR, SUCHITHRA, TAN, RAYMOND R., AVISO, KATHLEEN B. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2022. Estimation of fast pyrolysis bio-oil properties from feedstock characteristics using rough-set-based machine learning International Journal of Energy Research. 46, 19159–19176
• FOONG, S. Z. Y., ANDIAPPAN, V, AVISO, K. B., CHEMMANGATTUVALAPPIL, N. G., TAN, R. R., YU, K. D. S. and NG, D. K. S., 2022. A criticality index for prioritizing economic sectors for post-crisis recovery in oleo-chemical industry JOURNAL OF THE TAIWAN INSTITUTE OF CHEMICAL ENGINEERS. 130,
• YEE, QING YING, HASSIM, MIMI H., CHEMMANGATTUVALAPPIL, NISHANTH G., TEN, JOON YOON and RASLAN, RAFEQAH, 2022. Optimization of quality, safety and health aspects in personal care product preservative design PROCESS SAFETY AND ENVIRONMENTAL PROTECTION. 157, 246-253
• YEE JIA OOI, KRISYA NICOLE G. AUNG, JIA WEN CHONG, RAYMOND R. TAN, KATHLEEN B. AVISO and NISHANTH G. CHEMMANGATTUVALAPPIL, 2022. Design of fragrance molecules using computer-aided molecular design with machine learning Computers & Chemical Engineering. 157, 107585
• NAIR, PURUSOTHMN NAIR S. BHASKER, ANDIAPPAN, VIKNESH, FOO, DOMINIC C. Y. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2022. Disjunctive fuzzy optimisation of electricity generation by biomass power producers in a feed-in tariff programme ASIA-PACIFIC JOURNAL OF CHEMICAL ENGINEERING. 17(6),
• HENG, YI PENG, LEE, HO YAN, CHONG, JIA WEN, TAN, RAYMOND R., AVISO, KATHLEEN B. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2022. Incorporating Machine Learning in Computer-Aided Molecular Design for Fragrance Molecules Processes. 10(9),
• MOHAMAD HATAMLEH, JIA WEN CHONG, RAYMOND R. TAN, KATHLEEN B. AVISO, JOSE ISAGANI B. JANAIRO and NISHANTH G. CHEMMANGATTUVALAPPIL, 2022. Design of mosquito repellent molecules via the integration of hyperbox machine learning and computer aided molecular design Digital Chemical Engineering. 3, 100018
• TIONG OON TEY, SHARON CHEN, ZHI XIANG CHEONG, ABIGAIL SHU XIAN CHOONG, LIK YIN NG and NISHANTH G. CHEMMANGATTUVALAPPIL, 2021. Synthesis of a sustainable integrated biorefinery to produce value-added chemicals from palm-based biomass via mathematical optimisation Sustainable Production and Consumption. 26, 288 - 315
• JIA WEN CHONG, NISHANTH G CHEMMANGATTUVALAPPIL and SUCHITHRA THANGALAZHY-GOPAKUMAR, 2021. AVIATION BIOFUELS: CONVERSION ROUTES AND CHALLENGES Journal of Oil Palm, Environment & Health. 12, 69 - 85
• TEN, JOON YOON, LIEW, ZHI HAO, OH, XIN YAO, HASSIM, MIMI H. and CHEMMANGATTUVALAPPIL, NISHANTH, 2021. Computer-Aided Molecular Design of Optimal Sustainable Solvent for Liquid-Liquid Extraction PROCESS INTEGRATION AND OPTIMIZATION FOR SUSTAINABILITY. 5(2), 269-284
• LEE, JAMIE W. Y., NG, LIK YIN, ANDIAPPAN, VIKNESH, CHEMMANGATTUVALAPPIL, NISHANTH G. and NG, DENNY K. S., 2021. Inverse Molecular Design Techniques for Green Chemical Design in Integrated Biorefineries Processes. 9(9),
• CHIN, HON HUIN, MAH, ANGEL XIN YEE, NEOH, JIE QI, ABOAGWA, OMAR ANAS, THANGALAZHY-GOPAKUMAR, SUCHITHRA and CHEMMANGATTUVALAPPIL, NISHANTH G., 2021. Reactive and non-reactive solvents as bio-oil blends: a computer-aided molecular design approach Biomass Conversion and Biorefinery. 11, 1633–1649
• CHONG, JIA WEN, NG, LIK YIN, ABOAGWA, OMAR ANAS, THANGALAZHY-GOPAKUMAR, SUCHITHRA, MUTHOOSAMY, KASTURI and CHEMMANGATTUVALAPPIL, NISHANTH G., 2021. Computer-Aided Framework for the Design of Optimal Bio-Oil/Solvent Blend with Economic Considerations Processes. 9(12),
• NISHANTH G CHEMMANGATTUVALAPPIL, 2020. Development of solvent design methodologies using computer-aided molecular design tools Current Opinion in Chemical Engineering. 27, 51 - 59
• JOON YOON TEN, MIMI H. HASSIM and NISHANTH G. CHEMMANGATTUVALAPPIL, 2020. Integration of safety and health aspects in a simultaneous process and molecular design framework Chemical Engineering Research and Design. 153, 849 - 864
• KAI CONG CHENG, ZHI SHENG KHOO, NEWTON WELL LO, WEI JIE TAN and NISHANTH G. CHEMMANGATTUVALAPPIL, 2020. Design and performance optimisation of detergent product containing binary mixture of anionic-nonionic surfactants Heliyon. 6(5), e03861
• RAFEQAH RASLAN, MIMI H. HASSIM, NISHANTH G. CHEMMANGATTUVALAPPIL, DENNY K.S. NG and JOON YOON TEN, 2020. Development of inherent safety and health index for formulated product design Journal of Loss Prevention in the Process Industries. 66, 104209
• RASLAN, RAFEQAH, HASSIM, MIMI H, CHEMMANGATTUVALAPPIL, NISHANTH G, NG, DENNY K S and TEN, JOON YOON, 2020. Safety and health risk assessment methodology of dermal and inhalation exposure to formulated products ingredients. Regulatory toxicology and pharmacology : RTP. 116, 104753
• RADHAKRISHNAPANY, KIRRIDHARHAPANY T., WONG, CHEE YAN, TAN, FANG KHAI, CHONG, JIA WEN, TAN, RAYMOND R., AVISO, KATHLEEN B., JANAIRO, JOSE ISAGANI B. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2020. Design of fragrant molecules through the incorporation of rough sets into computer-aided molecular design Mol. Syst. Des. Eng.. -
• VICKY LEE, JOON YOON TEN, MIMI H. HASSIM and NISHANTH G. CHEMMANGATTUVALAPPIL, 2020. Design of Solvent Mixtures for Selective Extraction by Quantifying Thermodynamic and Sustainability Aspects Process Integration and Optimization for Sustainability. 4, 297-308
• RAFEQAH RASLAN, MIMI H. HASSIM, NISHANTH G. CHEMMANGATTUVALAPPIL, DENNY K.S. NG and JOON YOON TEN, 2020. Design of Household Products Ingredients with Minimum Safety and Health Risk PERTANIKA JOURNAL OF SCIENCE & TECHNOLOGY. 28(S1), 137-149
• CHEMMANGATTUVALAPPIL, NISHANTH G., NG, DENNY K. S., NG, LIK YIN, OOI, JECKSIN, CHONG, JIA WEN and EDEN, MARIO R., 2020. A Review of Process Systems Engineering (PSE) Tools for the Design of Ionic Liquids and Integrated Biorefineries Processes. 8(12),
• ANGEL XIN YEE MAH, HON HUIN CHIN, JIE QI NEOH, OMAR ANAS ABOAGWA, SUCHITHRA THANGALAZHY-GOPAKUMAR and NISHANTH G.CHEMMANGATTUVALAPPIL, 2019. Design of bio-oil additives via computer-aided molecular design tools and phase stability analysis on final blends Computers and Chemical Engineering. 123, 257-271
• JIE QI NEOH, HON HUIN CHIN, ANGEL XIN YEE MAH,, OMAR ANAS ABOAGWA, SUCHITHRA THANGALAZHY-GOPAKUMAR and NISHANTH G CHEMMANGATTUVALAPPIL, 2019. Design of bio-oil additives using mathematical optimisation tools considering blend functionality and sustainability aspects Sustainable Production and Consumption. 19(July 2019), 53-63
• OOI, JECKSIN, NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH, 2019. A systematic molecular design framework for an environmentally benign solvent recovery process 25TH REGIONAL SYMPOSIUM ON CHEMICAL ENGINEERING (RSCE 2018). 268,
• MAH, ANGEL XIN YEE, HO, WAI SHIN, BONG, CASSENDRA PHUN CHIEN, HASSIM, MIMI H., LIEW, PENG YEN, ASLI, UMI AISAH, KAMARUDDIN, MOHD JOHARI and CHEMMANGATTUVALAPPIL, NISHANTH G., 2019. Review of hydrogen economy in Malaysia and its way forward INTERNATIONAL JOURNAL OF HYDROGEN ENERGY. 44(12), 5661-5675
• OOI, JECKSIN, PROMENTILLA, MICHAEL ANGELO B., TAN, RAYMOND R., NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2019. Alternative Solvent Design for Oil Extraction from Palm Pressed Fibre via Computer-Aided Molecular Design GREEN TECHNOLOGIES FOR THE OIL PALM INDUSTRY. 33-55
• OOI, J., NG, D.K.S. and CHEMMANGATTUVALAPPIL, N.G., 2019. A Systematic Molecular Design Framework with the Consideration of Competing Solvent Recovery Processes Industrial & Engineering Chemistry Research. 58(29), 13210-13226
• YEN YI LAI, KELVIN CHU HOW YIK, HAN PENG HAU, CHAI PENG CHOW, NISHANTH G. CHEMMANGATTUVALAPPIL and LIK YIN NG, 2019. Enterprise Decision-making Framework for Chemical Product Design in Integrated Biorefineries Process Integration and Optimization for Sustainability. 3(1), 25-42
• CHANG, SARAH SUE LIN, KONG, YUAN LIN, LIM, WEI XUEN, OOI, JECKSIN, NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2018. Design of alternate solvent for recovery of residual palm oil: simultaneous optimization of process performance with environmental, health and safety aspects CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY. 20(5), 949-968
• TEN, JOON YOON, HASSIM, MIMI H., PROMENTILLA, MICHAEL ANGELO B., TAN, RAYMOND R., NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2018. Enhancing molecular safety and health assessment via index smoothing and prioritisation MOLECULAR SYSTEMS DESIGN & ENGINEERING. 3(1), 113-130
• OOI, JECKSIN, PROMENTILLA, MICHAEL ANGELO B., TAN, RAYMOND R., NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2018. Integration of Fuzzy Analytic Hierarchy Process into multi-objective Computer Aided Molecular Design COMPUTERS & CHEMICAL ENGINEERING. 109, 191-202
• OOI, JECKSIN, NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2018. Optimal molecular design towards an environmental friendly solvent recovery process COMPUTERS & CHEMICAL ENGINEERING. 117, 391-409
• TEN, JOON YOON, HASSIM, MIMI HARYANI, NG, DENNY KOK SUM and CHEMMANGATTUVALAPPIL, NISHANTH GOPALAKRISHNAN, 2017. A molecular design methodology by the simultaneous optimisation of performance, safety and health aspects CHEMICAL ENGINEERING SCIENCE. 159, 140-153
• KHOR, SUE YEE, LIAM, KIAN YU, LOH, WEI XIN, TAN, CHEE YING, NG, LIK YIN, HASSIM, MIMI H., NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2017. Computer Aided Molecular Design for alternative sustainable solvent to extract oil from palm pressed fibre PROCESS SAFETY AND ENVIRONMENTAL PROTECTION. 106, 211-223
• CHONG, FAH KEEN, ANDIAPPAN, VIKNESH, NG, DENNY K. S., FOO, DOMINIC C. Y., ELJACK, FADWA T., ATILHAN, MERT and CHEMMANGATTUVALAPPIL, NISHANTH G., 2017. Design of Ionic Liquid as Carbon Capture Solvent for a Bioenergy System: Integration of Bioenergy and Carbon Capture Systems ACS SUSTAINABLE CHEMISTRY & ENGINEERING. 5(6), 5241-5252
• WOO, W.Q., NG, L.Y., SIVANESWARAN, U. and CHEMMANGATTUVALAPPIL, N.G., 2017. A novel methodology for molecular design via data driven techniques Journal of Physical Science. 28, 1-24
• NG, S.Y., ONG, S.Y., NG, Y.Y., LIEW, A.H.B., NG, D.K.S. and CHEMMANGATTUVALAPPIL, N.G., 2017. Optimal Design and Synthesis of Sustainable Integrated Biorefinery for Pharmaceutical Products from Palm-Based Biomass Process Integration and Optimization for Sustainability. 1(2), 135-151
• TEN, J.Y., NG, L.Y., HASSIM, M.H., NG, D.K.S. and CHEMMANGATTUVALAPPIL, N.G., 2017. Integrating Safety and Health Indexes in Computer-Aided Molecular Design Under Property Prediction Uncertainty IEM journal. (In Press.)
• TEN, JOON YOON, NG, LIK YIN, HASSIM, MIMI H., NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2017. Managing Uncertainty on the Integration of Safety and Health Indexes in Computer-Aided Molecular Design INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH. 56(37), 10413-10427
• OOI, JECKSIN, PROMENTILLA, MICHAEL ANGELO B., TAN, RAYMOND R., NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2017. A systematic methodology for multi-objective molecular design via Analytic Hierarchy Process PROCESS SAFETY AND ENVIRONMENTAL PROTECTION. 111, 663-677
• MARTÍN, MM, EDEN, MR and CHEMMANGATTUVALAPPIL, NG, eds., 2017. Tools for chemical product design: from consumer products to biomedicine Amsterdam : Elsevier.
• DEV, VIKRANT A., DATTA, SHOUNAK, CHEMMANGATTUVALAPPIL, NISHANTH G. and EDEN, MARIO R., 2017. Comparison of Tree Based Ensemble Machine Learning Methods for Prediction of Rate Constant of Diels-Alder Reaction 27TH EUROPEAN SYMPOSIUM ON COMPUTER AIDED PROCESS ENGINEERING, PT A. 40A, 997-1002
• OOI, JECKSIN, PROMENTILLA, MICHAEL ANGELO B., TAN, RAYMOND R., NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2017. A Fuzzy Analytic Hierarchy Process Approach for Multi-objective Molecular Design Problem 27TH EUROPEAN SYMPOSIUM ON COMPUTER AIDED PROCESS ENGINEERING, PT A. 40A, 967-972
• CHEMMANGATTUVALAPPIL, NISHANTH and CHONG, SIEWHUI, 2017. Basics of Process Simulation With Aspen HYSYS CHEMICAL ENGINEERING PROCESS SIMULATION. 233-252
• NG, DENNY K. S., CHONG, CHIEN HWA and CHEMMANGATTUVALAPPIL, NISHANTH, 2017. Registration of New Components CHEMICAL ENGINEERING PROCESS SIMULATION. 23-49
• NG, L. Y., CHEMMANGATTUVALAPPIL, N. G., DEV, V. A. and EDEN, M. R., 2017. Mathematical Principles of Chemical Product Design and Strategies TOOLS FOR CHEMICAL PRODUCT DESIGN: FROM CONSUMER PRODUCTS TO BIOMEDICINE. 39, 3-43
• FOO, DOMINIC C. Y., CHONG, SIEWHUI and CHEMMANGATTUVALAPPIL, NISHANTH, 2017. Simulation of Recycle Streams CHEMICAL ENGINEERING PROCESS SIMULATION. 81-93
• TEN, J. Y., HASSIM, M. H., NG, D. K. S. and CHEMMANGATTUVALAPPIL, N. G., 2017. The Incorporation of Safety and Health Aspects as Design Criteria in a Novel Chemical Product Design Framework TOOLS FOR CHEMICAL PRODUCT DESIGN: FROM CONSUMER PRODUCTS TO BIOMEDICINE. 39, 197-220
• CHONG, FAH KEEN, CHEMMANGATTUVALAPPIL, NISHANTH G., ELJACK, FADWA T., ATILHAN, MERT and FOO, DOMINIC C. Y., 2016. Designing ionic liquid solvents for carbon capture using property-based visual approach CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY. 18(4), 1177-1188
• CHONG, FAH KEEN, ELJACK, FADWA T., ATILHAN, MERT, FOO, DOMINIC C. Y. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2016. A systematic visual methodology to design ionic liquids and ionic liquid mixtures: Green solvent alternative for carbon capture COMPUTERS & CHEMICAL ENGINEERING. 91, 219-232
• TEN, JOON YOON, HASSIM, MIMI H., CHEMMANGATTUVALAPPIL, NISHANTH and NG, DENNY K. S., 2016. A novel chemical product design framework with the integration of safety and health aspects JOURNAL OF LOSS PREVENTION IN THE PROCESS INDUSTRIES. 40, 67-80
• NG, HON WEI, LEE, LAI YEE, CHAN, WEI LEONG, GAN, SUYIN and CHEMMANGATTUVALAPPIL, NISHANTH, 2016. Luffa acutangula peel as an effective natural biosorbent for malachite green removal in aqueous media: equilibrium, kinetic and thermodynamic investigations DESALINATION AND WATER TREATMENT. 57(16), 7302-7311
• FAH KEEN CHONG, DOMINIC C.Y. FOO, FADWA T. ELJACK, MERT ATILHAN and NISHANTH G. CHEMMANGATTUVALAPPIL, 2016. A Systematic Approach to Design Task-Specific Ionic Liquids and Their Optimal Operating Conditions Molecular Systems Design & Engineering. 1, 109-121
• DEV, V.A., CHEMMANGATTUVALAPPIL, N.G. and EDEN, M.R., 2016. Multi-Objective Computer-Aided Molecular Design of Reactants and Products Computer Aided Chemical Engineering. 38, 2055-2060
• DEV, VIKRANT A., CHEMMANGATTUVALAPPIL, NISHANTH G. and EDEN, MARIO R., 2016. Multi-Objective Computer-Aided Molecular Design of Reactants and Products 26TH EUROPEAN SYMPOSIUM ON COMPUTER AIDED PROCESS ENGINEERING (ESCAPE), PT B. 38B, 2055-2060
• VIKNESH ANDIAPPAN, ANDY S.Y. KO, LIK YIN NG, REX T. L. NG, NISHANTH G. CHEMMANGATTUVALAPPIL and DENNY K.S. NG, 2015. Synthesis of sustainable integrated biorefinery via reaction pathway synthesis: Economic, incremental enviromental burden and energy assessment with multiobjective optimization AIChE Journal. 61(1), 132–146
• LEE, LAI YEE, CHIN, DANIEL ZHAO BING, LEE, XIN JIAT, CHEMMANGATTUVALAPPIL, NISHANTH and GAN, SUYIN, 2015. Evaluation of Abelmoschus esculentus (lady's finger) seed as a novel biosorbent for the removal of Acid Blue 113 dye from aqueous solutions PROCESS SAFETY AND ENVIRONMENTAL PROTECTION. 94, 329-338
• ANDIAPPAN, VIKNESH, KO, ANDY S. Y., LAU, VERONICA W. S., NG, LIK YIN, NG, REX T. L., CHEMMANGATTUVALAPPIL, NISHANTH G. and NG, DENNY K. S., 2015. Synthesis of Sustainable Integrated Biorefinery via Reaction Pathway Synthesis: Economic, Incremental Enviromental Burden and Energy Assessment with Multiobjective Optimization AICHE JOURNAL. 61(1), 132-146
• CHONG, FAH KEEN, FOO, DOMINIC C. Y., ELJACK, FADWA T., ATILHAN, MERT and CHEMMANGATTUVALAPPIL, NISHANTH G., 2015. Ionic liquid design for enhanced carbon dioxide capture by computer-aided molecular design approach CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY. 17(5), 1301-1312
• LIK YIN NG, NISHANTH G. CHEMMANGATTUVALAPPIL and DENNY K.S. NG, 2015. Robust chemical product design via fuzzy optimisation approach Computers & Chemical Engineering. 83, 186 – 202
• NG, LIK YIN, ANDIAPPAN, VIKNESH, CHEMMANGATTUVALAPPIL, NISHANTH G. and NG, DENNY K. S., 2015. Novel Methodology for the Synthesis of Optimal Biochemicals in Integrated Biorefineries via Inverse Design Techniques Industrial & Engineering Chemistry Research. 54(21), 5722-5735
• LIK YIN NG, VIKNESH ANDIAPPAN, NISHANTH G. CHEMMANGATTUVALAPPIL and DENNY K.S. NG, 2015. A Systematic Methodology for Optimal Mixture Design in an Integrated Biorefinery Computer aided Chemical Engineering. 37, 1205-1210
• FAH KEEN CHONG, DENNY K.S. NG, DOMINIC. C.Y. FOO, MERT ATILHAN and FADWA T. ELJACK, 2015. A Systematic Visual Approach to Ionic Liquid Design for Carbon Dioxide Capture Computer aided Chemical Engineering. 37, 1211-1216
• VIKRANT A. DEV, NISHANTH G. CHEMMANGATTUVALAPPIL and MARIO R. EDEN, 2015. Designing Reactants and Products with Properties Dependent on Both Structures Computer aided Chemical Engineering. 37, 1445-1450
• LEE, X.J., CHEMMANGATTUVALAPPIL, N. and LEE, L.Y., 2015. Adsorptive removal of salicylic acid from aqueous solutions using new graphene-based nanosorbents CHEMICAL ENGINEERING TRANSACTIONS. 45, 1387-1392
• FAH KEEN CHONG, NISHANTH G. CHEMMANGATTUVALAPPIL, DOMINIC. C.Y. FOO, MERT ATILHAN and FADWA T. ELJACK, 2015. Ionic Liquid Mixture Design for Carbon Capture Using Property Clustering Technique CHEMICAL ENGINEERING TRANSACTIONS. 45, 1567-1572
• NG, LIK YIN, ANDIAPPAN, VIKNESH, CHEMMANGATTUVALAPPIL, NISHANTH G. and NG, DENNY K. S., 2015. A systematic methodology for optimal mixture design in an integrated biorefinery COMPUTERS & CHEMICAL ENGINEERING. 81, 288-309
• NG, LIK YIN, ANDIAPPAN, VIKNESH, CHEMMANGATTUVALAPPIL, NISHANTH G. and NG, DENNY K. S., 2015. A Systematic Methodology for Optimal Mixture Design in an Integrated Biorefinery 12TH INTERNATIONAL SYMPOSIUM ON PROCESS SYSTEMS ENGINEERING (PSE) AND 25TH EUROPEAN SYMPOSIUM ON COMPUTER AIDED PROCESS ENGINEERING (ESCAPE), PT B. 37, 1205-1210
• CHONG, FAH KEEN, CHEMMANGATTUVALAPPIL, NISHANTH G., FOO, DOMINIC C. Y., ATILHAN, MERT and ELJACK, FADWA T., 2015. A Systematic Visual Approach to Ionic Liquid Design for Carbon Dioxide Capture 12TH INTERNATIONAL SYMPOSIUM ON PROCESS SYSTEMS ENGINEERING (PSE) AND 25TH EUROPEAN SYMPOSIUM ON COMPUTER AIDED PROCESS ENGINEERING (ESCAPE), PT B. 37, 1211-1216
• LIEW, WENG HUI, HASSIM, MIMI H., NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH, 2015. Systematic Framework for Sustainability Assessment of Biodiesel Production: Preliminary Engineering Stage INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH. 54(50), 12615-12629
• NG, LIK YIN, CHONG, FAH KEEN and CHEMMANGATTUVALAPPIL, NISHANTH G., 2015. Challenges and opportunities in computer-aided molecular design COMPUTERS & CHEMICAL ENGINEERING. 81, 115-129
• VIKRANT A. DEV, NISHANTH G. CHEMMANGATTUVALAPPIL and MARIO R. EDEN, 2014. Reactant Structure Generation by Signature Descriptors and Real Coded Genetic Algorithm Computer Aided Chemical Engineering. 34, 291-296
• VIKRANT A. DEV, NISHANTH G. CHEMMANGATTUVALAPPIL and MARIO R. EDEN, 2014. Structure Generation of Candidate Reactants Using Signature Descriptors Computer Aided Chemical Engineering. 33, 151-156
• LIK YIN NG, NISHANTH G. CHEMMANGATTUVALAPPIL and DENNY K.S. NG, 2014. Robust chemical product design via fuzzy optimisation approach Computer Aided Chemical Engineering. 34, 387-392
• LIK YIN NG, FAH KEEN CHONG and NISHANTH G. CHEMMANGATTUVALAPPIL, 2014. Challenges and opportunities in computer aided molecular design Computer Aided Chemical Engineering. 34, 25-34
• LIK YIN NG, NISHANTH G. CHEMMANGATTUVALAPPIL and DENNY K.S. NG, 2014. Optimal Chemical Product Design via Fuzzy Optimisation based Inverse Design Techniques Computer Aided Chemical Engineering. 33, 325-330
• VIKNESH ANDIAPPAN, LIK YIN NG, NISHANTH G. CHEMMANGATTUVALAPPIL and DENNY K.S. NG, 2014. Systematic Chemical Reaction Pathway Synthesis for Sustainable Integrated Biorefineries Computer Aided Chemical Engineering. 34, 471-476
• LIK YIN NG, CHEMMANGATTUVALAPPIL, NISHANTH G. and NG, DENNY K. S., 2014. A Multiobjective Optimization-Based Approach for Optimal Chemical Product Design INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH. 53(44), 17429-17444
• NG, LIK YIN, CHONG, FAH KEEN and CHEMMANGATTUVALAPPIL, NISHANTH G., 2014. Challenges and opportunities in computer aided molecular design PROCEEDINGS OF THE 8TH INTERNATIONAL CONFERENCE ON FOUNDATIONS OF COMPUTER-AIDED PROCESS DESIGN. 34, 25-34
• CHONG, MEI FONG, FOO, DOMINIC C. Y., NG, DENNY K. S. and CHEMMANGATTUVALAPPIL, NISHANTH, 2014. Green Technologies for Sustainable Processes PROCESS SAFETY AND ENVIRONMENTAL PROTECTION. 92(6), 487-488
• CHONG, FAH KEEN, ELJACK, FADWA T., ATILHAN, M., FOO, DOMINIC C. Y. and CHEMMANGATTUVALAPPIL, NISHANTH G., 2014. Ionic Liquid Design for Enhanced Carbon Dioxide Capture - A Computer Aided Molecular Design Approach PRES 2014, 17TH CONFERENCE ON PROCESS INTEGRATION, MODELLING AND OPTIMISATION FOR ENERGY SAVING AND POLLUTION REDUCTION, PTS 1-3. 39, 253-258
• NISHANTH G. CHEMMANGATTUVALAPPIL and MARIO R. EDEN, 2013. A Novel Methodology for Property-Based Molecular Design Using Multiple Topological Indices Industrial & Engineering Chemistry Research. 52(22), 7090-7103
• NISHANTH G. CHEMMANGATTUVALAPPIL and DENNY K.S. NG, 2013. A systematic methodology for optimal product design in an integrated biorefinery Computer aided Chemical Engineering. 32, 91-96
• BOMMAREDDY S., CHEMMANGATTUVALAPPIL N.G. and EDEN M.R., 2012. An Integrated Framework for Flowsheet Synthesis and Molecular Design Computer Aided Chemical Engineering. 30, 662-666
• HADA S., CHEMMANGATTUVALAPPIL N.G., ROBERTS C.B. and EDEN M.R., 2012. Product and Mixture Design in Latent Variable Space by Chemometric Techniques Computer Aided Chemical Engineering. 30, 147-151
• HERRING R.H., NAMIKIS R, CHEMMANGATTUVALAPPIL N.G. and ROBERTS C.B., 2012. Incorporating Topographical Characteristics in Molecular Signature Descriptors Computer Aided Chemical Engineering. 30, 497-501
• CHEMMANGATTUVALAPPIL N.G., ROBERTS C.B. and EDEN M.R., 2012. Signature Descriptors for Process and Molecular Design in Reactive Systems Computer aided chemical engineering. 31, 1356-1360
• HERRING R.H., NAMIKIS R., CHEMMANGATTUVALAPPIL N.G., ROBERTS C.B. and EDEN M.R., 2012. Molecular Design using Three-Dimensional Signature Descriptors Computer aided chemical engineering. 31, 225-229
• HADA S., CHEMMANGATTUVALAPPIL N.G., ROBERTS C.B. and EDEN M.R., 2012. Optimization of Product Formulation through Multivariate Statistical Analysis Computer aided chemical engineering. 31, 1361-1365
• CHEMMANGATTUVALAPPIL N., TASK K. and BANERJEE I., 2012. An integer optimization algorithm for robust identification of non-linear gene regulatory networks BMC Systems Biology. 6(119),
• CHEMMANGATTUVALAPPIL N, TASK K and BANERJEE I, 2012. An integer optimization algorithm for robust identification of non-linear gene regulatory networks. BMC systems biology. 6, 119
• SOLVASON C.C., CHEMMANGATTUVALAPPIL N.G. and EDEN M.R., 2011. Process and Product Synthesis/Design – Process Synthesis and Design. In: Ullman’s Encyclopedia of Process Systems Engineering Wiley. (In Press.)
• CHEMMANGATTUVALAPPIL N.G., SOLVASON C.C., BOMMAREDDY S. and EDEN M.R., 2010. Reverse Problem Formulation Approach to Molecular Design using Property Operators based on Signature Descriptors Computers & Chemical Engineering. 34, 2062-2071
• 2010. Combined Property Clustering And Gc(+) Techniques For Process And Product Design
• CHEMMANGATTUVALAPPIL N.G., SOLVASON C.C., BOMMAREDDY S. and EDEN M.R., 2010. Molecular Signature Descriptors for Integrated Flowsheet and Molecular Design Computer aided Chemical Engineering. 28, 1267-1272
• SOLVASON C.C., CHEMMANGATTUVALAPPIL N.G. and EDEN M.R., 2010. Multi-Scale Chemical Product Design using the Reverse Problem Formulation Computer aided Chemical Engineering. 28, 1285-1290
• BOMMAREDDY, S, CHEMMANGATTUVALAPPIL, NG, SOLVASON, CC and EDEN, MR, 2010. Simultaneous Solution Of Process And Molecular Design Problems Using An Algebraic Approach Computers & Chemical Engineering. 34(9), 1481-1486
• BOMMAREDDY, S, CHEMMANGATTUVALAPPIL, NG, SOLVASON, CC and EDEN, MR, 2010. An Algebraic Approach For Simultaneous Solution Of Process And Molecular Design Problems Brazilian Journal of Chemical Engineering. 27(3), 441-450
• CHEMMANGATTUVALAPPIL, NG, SOLVASON, CC, BOMMAREDDY, S and EDEN, MR, 2010. Combined Property Clustering And Gc(+) Techniques For Process And Product Design Computers & Chemical Engineering. 34, 582-591
• SOLVASON, CC, CHEMMANGATTUVALAPPIL, NG and EDEN, MR, 2009. A Systematic Method For Integrating Product Attributes Within Molecular Synthesis Computers & Chemical Engineering. 33(5), 977-991
• CHEMMANGATTUVALAPPIL, NG, ELJACK, FT, SOLVASON, CC and EDEN, MR, 2009. A Novel Algorithm For Molecular Synthesis Using Enhanced Property Operators
• SOLVASON, CC, CHEMMANGATTUVALAPPIL, NG, ELJACK, FT and EDEN, MR, 2009. Efficient Visual Mixture Design Of Experiments Using Property Clustering Techniques Industrial & Engineering Chemistry Research. 48(4), 2245-2256
• CHEMMANGATTUVALAPPIL N.G., SOLVASON C.C., BOMMAREDDY S and EDEN M.R., 2009. Novel Molecular Design Technique using Property Operators based on Signature Descriptors Computer aided Chemical Engineering. 897-902
• CHEMMANGATTUVALAPPIL N.G., SOLVASON C.C., BOMMAREDDY S and EDEN M.R., 2009. Incorporating Molecular Signature Descriptors in Reverse Problem Formulations Computer aided Chemical Engineering. 73-78
• CHEMMANGATTUVALAPPIL N.G., SOLVASON C.C. and EDEN M.R., 2009. Property based product design using combined property clustering and GC+ techniques Computer aided Chemical Engineering. 26, 237-242
• CHEMMANGATTUVALAPPIL N.G., SOLVASON C.C., BOMMAREDDY S and EDEN M.R., 2009. A Systematic Methodology for Molecular Synthesis using Combined Property Clustering and GC+ Methods Design for Energy and the Environment. 757-766
• SOLVASON C.C., CHEMMANGATTUVALAPPIL N.G. and EDEN M.R., 2009. Multi-Scale Product Design using Property Clustering and Decomposition Techniques Design for Energy and the Environment. 861-870
• BOMMAREDDY S, CHEMMANGATTUVALAPPIL N.G., SOLVASON C.C. and EDEN M.R., 2009. Simultaneous Consideration of Process and Product Design Problems using an Algebraic Property Based Approach Design for Energy and the Environment. 851-860
• SOLVASON C.C., CHEMMANGATTUVALAPPIL N.G., BOMMAREDDY S and EDEN M.R., 2009. Combined Stochastic and Deterministic Techniques using Property Clustering Computer aided Chemical Engineering. 1089-1094
• BOMMAREDDY S, CHEMMANGATTUVALAPPIL N.G., SOLVASON C.C. and EDEN M.R., 2009. Simultaneous Solution of Process and Molecular Design Problems using an Algebraic Property Clustering Approach Computer aided Chemical Engineering. 1095-1100
• SOLVASON C.C., CHEMMANGATTUVALAPPIL N.G. and EDEN M.R., 2009. Decomposition Techniques for Multi-Scale Structured Product Design: Molecular Synthesis Computer aided Chemical Engineering. 1053-1058
• ELJACK, FT, SOLVASON, CC, CHEMMANGATTUVALAPPIL, N and EDEN, MR, 2008. A Property Based Approach For Simultaneous Process And Molecular Design
• CHEMMANGATTUVALAPPIL N.G., SOLVASON C.C., ELJACK F.T. and EDEN M.R., 2008. Enhanced Algebraic Property Clustering Technique for Molecular Synthesis Computer aided Chemical Engineering. 25,
• SOLVASON C.C., ELJACK F.T., CHEMMANGATTUVALAPPIL N.G. and EDEN M.R., 2008. Visual Mixture Design Using Property Clustering Computer aided Chemical Engineering. 25,
• FADWA T. ELJACK, CHARLES CONRAD SOLVASON, NISHANTH G. CHEMMANGATTUVALAPPIL and MARIO R. EDEN, 2008. A Property Based Approach for Simultaneous Process and Molecular Design Chinese Journal of Chemical Engineering. 16(3), 424-434