Et profilbilde

Mohamed Fawzy Hamed Attia Mady { "honorific-suffix": "Senioringeniør", "fn": "Mohamed Fawzy Hamed Attia Mady", "tel": "Telefon: 51831767", "email": "" }

Avdeling/enhet Det teknisk- naturvitenskapelige fakultet
Institutt/senter Institutt for kjemi, biovitenskap og miljøteknologi
Laboratorium IKBM
Rom KE C-237


Utvalgte publikasjoner

Pågående forskning


Vitenskapelige publikasjoner (fra CRISTin)

  • Mady, Mohamed Fawzy Hamed Attia (2018). Environmentally-Acceptable Scale Inhibitors for Downhole Squeeze Applications. Italmatch Chemicals S.p.A.; 2018-02-25 - 2018-03-01.
  • Mady, Mohamed Fawzy Hamed Attia (2018). Overview of the Oilfield Production Chemistry at UiS. Politecnico di Milano; 2018-03-02.
  • Mady, Mohamed Fawzy Hamed Attia (2018). The Importance of Green Chemistry in Process Research and Development. Mo(Bi)2C team; 2018-01-15.
  • Mady, Mohamed Fawzy Hamed Attia; Kelland, Malcolm Andrew (2017). Synergism of t-Heptylated and Other Quaternary Ammonium Salts with Polyvinylcaprolactam Kinetic Hydrate Inhibitor in High Pressure Oil-Based Systems. Colorado School of Mines; 2017-06-25 - 2017-06-30.
  • Kelland, Malcolm Andrew; Mady, Mohamed Fawzy Hamed Attia (2016). A Study on Various Readily-Available Proteins as New Green Scale Inhibitors for Oilfield Scale Control. IUPAC; 2016-09-04 - 2016-09-09.
  • Mady, Mohamed Fawzy Hamed Attia (2016). Green Production Chemicals for the Oil and Gas Industry. Thor Martin Svartås; 2016-10-03.
  • Jørgensen, Kåre Bredeli; Mady, Mohamed F.; Nilsen, Lyudmyla (2014). Ultrasound-assisted synthesis of novel 1,23-triazole coupled diaryl sulfone moieties by in situ formed azides in the CuAAC reaction. Universidade Nova De Lisboa; 2014-09-15 - 2014-09-17.
  • Kelland, Malcolm Andrew; Mady, Mohamed F.; Lee, Hyung-il (2014). The First Kinetic Hydrate Inhibition Investigation on Fluorinated Polymers: Poly(fluoroalkylacrylamide)s. 2014-07-28 - 2014-08-01.
  • Mady, Mohamed F.; El-Kateb, Ahmed A.; Zeid, Ibrahim F.; Jørgensen, Kåre (2012). Ultrasound-Assisted synthesis of Novel Homoallylic Alcohol Derivatives Containing The Sulphone Moiety in Aqueous Media. Umm Al Qura University; 2012-04-16 - 2012-04-18.