TY - JOUR
T1 - Bionic design methodology for wear reduction of bulk solids handling equipment
AU - Chen, Guangming
AU - Schott, Dingena L.
AU - Lodewijks, G.
PY - 2016
Y1 - 2016
N2 - Large-scale handling of particulate solids can cause severe wear on bulk solids handling equipment surfaces. Wear reduces equipment life span and increases maintenance cost. Examples of traditional methods to reduce wear of bulk solids handling equipment include optimizing transport operations and utilizing resistant materials. To our knowledge, the so-called bionic design has not been utilized. Bionic design is the application of biological models, systems, or elements to modern engineering. Bionic design has promoted significant progress on the development of engineering products and systems. In order to use bionic design for wear reduction of bulk solids handling equipment surfaces, this paper introduces bionic design to bulk solids handling on the basis of analogies between biology and bulk solids handling. In addition, a bionic design methodology for the wear reduction of bulk solids handling equipment surfaces is formulated. Based on the bionic design methodology, two bionic models used for abrasive and erosive wear reduction of bulk solids handling equipment surfaces are proposed.
AB - Large-scale handling of particulate solids can cause severe wear on bulk solids handling equipment surfaces. Wear reduces equipment life span and increases maintenance cost. Examples of traditional methods to reduce wear of bulk solids handling equipment include optimizing transport operations and utilizing resistant materials. To our knowledge, the so-called bionic design has not been utilized. Bionic design is the application of biological models, systems, or elements to modern engineering. Bionic design has promoted significant progress on the development of engineering products and systems. In order to use bionic design for wear reduction of bulk solids handling equipment surfaces, this paper introduces bionic design to bulk solids handling on the basis of analogies between biology and bulk solids handling. In addition, a bionic design methodology for the wear reduction of bulk solids handling equipment surfaces is formulated. Based on the bionic design methodology, two bionic models used for abrasive and erosive wear reduction of bulk solids handling equipment surfaces are proposed.
KW - Bio-inspiration
KW - biology to engineering
KW - wear-resistant morphologies
KW - worn by particles
UR - http://resolver.tudelft.nl/uuid:a56f64da-6982-4bf3-923b-74c8e4be5a8d
U2 - 10.1080/02726351.2016.1144666
DO - 10.1080/02726351.2016.1144666
M3 - Article
SN - 0272-6351
VL - 35 (2017)
SP - 525
EP - 532
JO - Particulate Science and Technology: an international journal
JF - Particulate Science and Technology: an international journal
IS - 5
ER -