Increasing energy efficiency of wall materials with the help of cenospheres
Pages 93-100
Hollow filling by brick mortar may take place in engineering structures with hollow tiles, which leads to thermal properties worsening of a construction. One of solutions to the problem of increasing energy efficiency of enveloping structures is the development of heat insulation material based on cenospheres with increased strength and decreased thermal conductivity in case of operational watering. Homogeneous construction systems based on cellular concrete and porous ceramics meet the structural requirements and also provide required thermal performance. In order to improve operational characteristics of enclosing structures it is possible to apply ceramic materials with effective high porous filler. Manufacturing technology of materials based on high porous filler and clay does not require significant capital expenditures to upgrade existing facilities and it’s similar to technology of ceramic wall materials.
DOI: 10.22227/1997-0935.2014.7.93-100
- Gagarin V.G. Makroekonomicheskie aspekty obosnovaniya energosberegayushchikh meropriyatiy pri povyshenii teplozashchity ograzhdayushchikh konstruktsiy zdaniy [Macro-economic Aspects of Energy Saving Measures’ Substantiation by Increasing Thermal Protection of Enclosing Structures of Buildings]. Stroitel'nye materialy [Construction Materials]. 2010, no. 3, pp. 8—16.
- Shmelev S.E. Puti vybora optimal'nogo nabora energosberegayushchikh meropriyatiy [Ways of Selecting the Optimal Set of Energy-saving Measures]. Stroitel'nye materialy [Construction Materials]. 2013, no. 3, pp. 7—9.
- Ashmarin G.D., Salakhov A.M., Boltakova N.V., Morozov V.P., Gerashchenko V.N., Salakhova R.A. Vliyanie porovogo prostranstva na prochnostnye kharakteristiki keramiki [The Influence of Pore Space on the Strength Behaviour of Ceramics]. Steklo i keramika [Glass and Ceramics]. 2012, no. 8, pp. 24—30.
- De Lange R.S.A., Hekkink J.H.H., Keizer K., Burggraaf A.J. Microporous sol-gel Modified Membranes for Hydrogen Separation. In Proceedings of ICIM-2, 1—4 July, 1991. Montpellier, France. Key Engineering Materials. Trans. Tech. Publishers, Zurich, Switzerland, 1992, vol. 61—62, pp. 77—82.
- Baker R.B. Membrane Technology and Applications. 2nd ed. John Wiley and Sons Ltd., 2004, 538 p.
- Rumyantsev B.M., Zhukov A.D. Printsipy sozdaniya novykh stroitel'nykh materialov [Principles of Creation of New Construction Materials]. Internet-Vestnik VolgGASU. Seriya: Politematicheskaya [VolgGASU Internet Bulletin. Series: Polytopical]. 2012, no. 3 (23). Available at: http://vestnik.vgasu.ru/attachments/RumyantsevZhukov-2012_3(23).pdf.
- Rumyantsev B.M., Zhukov A.D., Smirnova T.V. Teploprovodnost' vysokoporistykh materialov [Heat Conductivity of Highly Porous Materials]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 3, pp. 108—114.
- Gagarin V.G., Kozlov V.V. Teoreticheskie predposylki rascheta privedennogo soprotivleniya teploperedache ograzhdayushchikh konstruktsiy [Theoretical Premises of the Calculation of Reduced Resistance to Heat Transfer of Enclosing Structures]. Stroitel'nye materialy [Construction Materials]. 2010, no. 12, pp. 4—12.
- Grigorieva T.F., Vorsina I.A., Barinova A.P., Boldyrev V.V. Mechanochemical Interaction of the Kaolinite with the Solid State Acids. XIII International Symposium on the Reactivity of Solids. Hamburg, Germany, Abstr. and Program, 1996, p. 132.
- Moore F. Rheology of Ceramic Systems. Institute of Ceramics Textbook Series, Applied Science Publishers, 1965, 170 p.
- Vos B., Boekwijt W. Ausf?llung des Hohlraumes in bestehengen Hohlmauern. Gesundheits-Ingenier, 1974, no. 4, pp. 36—40.
- Oreshkin D.V. Vysokokachestvennye tsementnye tamponazhnye materialy s polymi steklyannymi mikrosferami [High Quality Oil-well Cement Materials with Hollow Glass Microspheres]. Stroitel'stvo neftyanykh i gazovykh skvazhin na sushe i na more [Construction of Oil and Gas Wells on Land and Sea]. 2003, no. 7, pp. 20—31.
- Sapelin A.N. Sorbtsionnye svoystva stenovykh materialov s primeneniem mikrosfer [Sorptive Properties of the Wall Materials Using Microspheres]. Academia. Arkhitektura I stroitel'stvo [Academia. Architecture and Construction]. 2013, no. 3, pp. 101—104.
- Sapelin A.N., Bessonov I.V. Koeffitsienty struktury kak kriteriy otsenki teplotekhnicheskogo kachestva stroitel'nykh materialov [Pattern Coefficients as a Criterion for Assessing Thermal Performance of Construction Materials]. Stroitel'nye materialy [Construction Materials]. 2012, no. 6, pp. 26—28.
- Pedersen T. Experience with Selee Open Pore Foam Structure as a Filter in Aluminium Continuous Rod Casting and Rolling. Wire Journal. 1979, vol. 12, no. 6, pp. 74—77.
- Worral W.E. Clays and Ceramic Raw Materials. Great Britan, University of Leeds, 1978, 277 p.
- Zhukov A.D., Smirnova T.V., Zelenshchikov D.B., Khimich A.O. Thermal Treatment of the Mineral Wool Mat. Advanced Materials Research (Switzerland). 2014, vol. 838—841, pp. 196—200.
- Hall Ch.A.S. Energy Return on Investment: Introduction to Special Issue on New Studies in EROI. 2011, no. 3 (10), pp. 1773—1777. Available at: www.mdpi.com/2071-1050/3/10/1773. Date of access: 15.01.2014.