参考文献/References:
[1] 陈新孝,周述光,王有熙,等. 牛粪灰(CMA)颗粒尺寸对水泥浆流变性的影响试验研究[J]. 西安建筑科技大学学报(自然科学版),2019,51(6):804-813.
CHEN Xinxiao, ZHOU Shuguang, WANG Youxi, et al. Experimental research on effect of particle size of CMA to cement slurry rheological properties[J]. J. of the Xi'an Univ. of Arch. & Tech.(Natural Science Edition), 2019, 51(6): 804-813.
[2]朱建春. 陕西农业废弃物资源化利用问题研究[D]. 杨凌:西北农林科技大学, 2014.
ZHU Jianchun. Study on resource utilization of agricultural wastes in Shaanxi Province[D]. Yangling: Northwest A&F University, 2014.
[3]冀文文,李静一,尚中博,等. 生物灰综合利用的研究进展[J]. 河南大学学报,2017,47(4): 453-463.
JI Wenwen, LI Jingyi, SHANG Zhongfu, et al. Research progress on comprehensive utilization of biological ash[J]. Journal of the Henan University, 2017, 47(4): 453-463.
[4]CHEN Xinxiao, ZHOU Shuguang, ZHANG Haiyu. Alkali silicate reaction of cement mortar with cattle manure ash[J]. Construction and Building Materials, 2019, 203: 722-733.
[5]刘一明. 强化监管切实提高畜禽养殖粪污资源化利用水平——两部委解读《关于进一步明确畜禽粪污还田利用要求强化养殖污染监管的通知》[J].中国食品,2020(15):20-22.
LIU Yiming. Strengthen supervision and effectively improve the utilization of livestock and poultry breeding waste resources: Two ministries and commissions interpret the notice on further clarifying the requirements of returning livestock and poultry manure to land and strengthening the supervision of breeding pollution[J]. Chinese Food, 2020(15): 20-22.
[6]VASSILEV S V,BAXTER D,ANDERSEN L K,et al. An overview of the composition and application of biomass ash. Part 2: Potential utilization, technological and ecological advantages and challenges[J]. Fuel, 2013, 105(3): 19-39.
[7]THOMAS, PERCIVAL R. Beef cattle feedlot waste ash recycling in cement mortar and concrete[C]//Proceedings of the 1997 13th International Conference on Solid Waste Technology and Management. Philadelphia, PA, USA: Widener Univ School Eng: 1997: 261-265.
[8]Sirri Sahin, Bahar Kocaman, Ibrahim Orung, et al. Replacing cattle manure ash as cement into concrete[J]. Journal of Applied Sciences, 2006, 6(13): 2840 - 2842.
[9]ZHOU Shuguang, ZHANG Xun'an, CHEN Xinxiao. Pozzolanic activity of feedlot biomass(cattle manure)ash[J]. Construction and Building Materials, 2012, 28(1): 493-498.
[10]陈均.牛粪灰(CMA)混凝土热物理性能试验研究[D].西安:西京学院,2021.
CHEN Jun. Experimental study on thermal physical properties of cattle manure ash(CMA)concrete[D]. Xi'an: Xijing University, 2021.
[11]何昱. 新型建筑墙体材料及建筑节能保温技术研究[J]. 陶瓷, 2020(7): 75-77.
HE Yu. Study on new building wall material and building energy saving and insulation technology[J]. Ceramics, 2020(7): 75-77.
[12]陈新孝,周述光. BODA对混凝土砌块抗压强度的影响试验研究[J]. 西安建筑科技大学学报(自然科学版), 2010, 42(6):790-794.
CHEN Xinxiao, ZHOU Shuguang. Experimental study on influence of BODA on compressive strength of concrete block[J]. Journal of the Xi'an Univ. of Arch. & Tech.(Natural Science Edition), 2010, 42(6): 790-794.
[13]周述光,陈新孝. 严寒地区自保温砌块的研制[J]. 新型建筑材料,2009(4):34-37.
ZHOU Shuguang, CHEN Xinxiao. Development of self-insulation block in severe cold area[J]. New Building Materials, 2009(4): 34-37.
[14]ZHOU Shuguang, TANG Wenhui, XU Peng, et al. Effect of cattle manure ash on strength, workability and water permeability of concrete[J]. Construction and Building Materials, 2015, 84.
[15]国家质量监督检验检疫总局.绝热材料稳态热阻及有关特性的测定热流计法:GB_T 10295—2008[S].北京:中国标准出版社,2009.
AQSIQ. Steady-state thermal resistance and related properties of thermal insulation materials & Heat flow meter method:GB_T 10295—2008[S]. Beijing: Standards Press of China, 2009.
[16]张国永, 王立, 刘亚辉, 等.烧结复合保温砌块热工性能数值模拟研究[J]. 新型建筑材料,2016(11): 39-41.
ZHANG Guoyong, WANG Li, LIU Yahui, et al. Numerical simulation of thermal performance of sintered composite insulation block[J]. New Building Materials, 2016(11): 39-41.
[17]谢思源, 刘伟军, 宋恺芸. COMSOL仿真测定多层复合板导热系数的可靠性验证[J]. 产业与科技论坛, 2020, 19(4): 47-49.
XIE Siyuan, LIU Weijun, SONG Kaiyun. Verification of reliability of simulation measurement of thermal conductivity of multilayer composite plates by COMSOL software[J]. Industry and Technology Forum, 2020, 19(4): 47-49.
[18]丁杨, 周双喜, 黄神恩, 等.基于COMSOL三维仿真测定复合材料导热系数[J]. 传感器与微系统, 2018, 37(9): 112-113,116.
DING Yang, ZHOU Shuangxi, HUANG Shenen, et al. Thermal conductivity of composite materials was measured based on COMSOL 3D simulation[J]. Sensors and Microsystems, 2018, 37(9): 112-113,116.
[19]苏宇峰, 梁世英. 高孔洞率复合保温砌块设计及热工性能影响因素[J]. 建筑材料学报, 2018, 21(5): 754-760.
SU Yufeng, LIANG Shiying. Design and influence factors of thermal performance of composite insulation block with high porosity[J]. Journal of Building Materials. 2018, 21(5): 754-760.
[20]王庆轩, 石云兴, 屈铁军, 等.自保温砌块墙体在夏热冬冷地区的传热性能研究[J]. 施工技术, 2014, 43(24): 19-23.
WANG Qingxun, SHI Yunxing, QU Tiejun, et al. Study on heat transfer performance of self-insulation block wall in hot summer and cold winter area[J]. Construction Technique, 2014, 43(24): 19-23.
[21]HU Z, HE W, JI J, et al. A review on the application of Trombe wall system in buildings[J]. Renewable and Sustainable Energy Reviews, 2017, 70: 976-987.
[22]周晓群, 刘凡, 丁晓燕. 内嵌秸秆板复合墙体热工性能测试及性能优化[J]. 新型建筑材料, 2020, 47(5): 58-62.
ZHOU Xiaoqun, LIU Fan, DING Xiaoyan. Thermal performance test and performance optimization of composite wall with inlaid straw board[J]. New Building Materials, 2020, 47(5): 58-62.
[23]王禹. 装配式混凝土空气夹层外墙板传热性能研究[D]. 阜新: 辽宁工程技术大学, 2019.
WANG Yu. Study on heat transfer performance of prefabricated concrete air sandwich wall panels[D]. Fuxing: Liaoning Technical University, 2019.