ABSTRACT
Under the background of energy saving and emission reduction, energy-saving renovation of kilns in ceramics industry has always been the key step to promote sustainable development strategy in ceramics industry, and also one of the key points for enterprises to reduce production costs. For the manufacturing enterprises of gongdao kiln in ceramics industry, the choice of refractory and heat preservation materials is one of the keys to manufacturing high efficiency and energy saving kilns. Through a series of technological innovations and development experiments, the researchers solved the problem of surface peeling of thermal radiation materials after sintering on the inner wall of kiln, and made the thermal radiation materials more widely used. This paper introduces the development process, physical and chemical characteristics, energy-saving principle and application methods of heat radiation energy-saving coatings, and lists specific examples for analysis. Through energy-saving comparative experiments and specific application cases, it shows that thermal radiation energy-saving coatings have great application prospects in the ceramic industry, and should be vigorously promoted to provide direction for energy-saving and emission reduction in the ceramic industry.
KEYWORDS
PAPER SUBMITTED: 2018-12-23
PAPER REVISED: 2019-02-20
PAPER ACCEPTED: 2019-03-01
PUBLISHED ONLINE: 2019-05-18
THERMAL SCIENCE YEAR
2019, VOLUME
23, ISSUE
Issue 5, PAGES [2793 - 2800]
- Wang F, Cheng L, Xiang L, et al. Effect of SiC coating and heat treatment on the thermal radiation properties of C/SiC composites, Journal of the European Ceramic Society, 34 (2014), 7, pp.1667-1672.
- Luo X H, Li B W, Zhang J K, et al. Simulation of Thermal Radiation Effects on MHD Free Convection in a Square Cavity Using the Chebyshev Collocation Spectral Method, Numerical Heat Transfer, Part A: Applications, 66 (2014),7, pp.792-815.
- Mosina T. Structure and phase transformations in the surface layers of composite ceramic materials based on the systems (TiN-AlN)-(TiN-Cr3C2) and (TiN-AlN)-(Ni-Cr)-(TiN-Cr3C2) with high-temperature oxidation under conditions of concentrated solar radiation, Refractories & Industrial Ceramics, 15 (2015),12, pp.4781-4807.
- Sheikhzadeh G A, Azemati A A, Khorasanizadeh H , et al. The effect of mineral micro particle in coating on energy consumption reduction and thermal comfort in a room with a radiation cooling panel in different climates, Energy & Buildings, 82 (2014), 6, pp.644-650.
- Kothandapani M, Prakash J. Effects of thermal radiation and chemical reactions on peristaltic flow of a Newtonian nanofluid under inclined magnetic field in a generalized vertical channel using homotopy perturbation method, Asia-Pacific Journal of Chemical Engineering, 10(2015), 2, pp.259-272.
- Shi H, Zhao C Y, Wang B X. Modeling the thermal radiation properties of thermal barrier coatings based on a random generation algorithm, Ceramics International, 42(2016), 8, pp.9752-9761.
- Wu S Y, Wu Y Y, Xiao L. Effect of thermal radiation on convection heat transfer in cooling channel of photovoltaic thermal system, Journal of Mechanical Science & Technology, 28(2014), 8, pp.3353-3360.
- Mungondori H H, Tichagwa L , Katwire D M , et al. Preparation of photo-catalytic copolymer grafted asymmetric membranes (N-TiO 2 -PMAA-g-PVDF/PAN) and their application on the degradation of bentazon in water, Iranian Polymer Journal, 25(2016), 2, pp.135-144.
- Mittal H, Kaith B S, Jindal R, et al. A comparative study on the effect of different reaction conditions on graft co-polymerization, swelling, and thermal properties of Gum ghatti-based hydrogels, Journal of Thermal Analysis and Calorimetry, 119(2015),1, pp.131-144