水泥
水泥
수니
CEMENT
2001年
3期
9-11
,共3页
早强%铁铝酸盐水泥%五元系统%配料计算
早彊%鐵鋁痠鹽水泥%五元繫統%配料計算
조강%철려산염수니%오원계통%배료계산
以事先设定熟料主要矿物组成含量和计算出与之相适应熟料率值为目标控制值,在灼烧基原燃材料与无灰熟料相对应氧化物含量单项平衡的基础上,建立多元系统线性非齐次配料方程组,从中求解出配比未知量,由此逐步计算,实现早强铁铝酸盐特种水泥生料配比的倒推计算。
以事先設定熟料主要礦物組成含量和計算齣與之相適應熟料率值為目標控製值,在灼燒基原燃材料與無灰熟料相對應氧化物含量單項平衡的基礎上,建立多元繫統線性非齊次配料方程組,從中求解齣配比未知量,由此逐步計算,實現早彊鐵鋁痠鹽特種水泥生料配比的倒推計算。
이사선설정숙료주요광물조성함량화계산출여지상괄응숙료솔치위목표공제치,재작소기원연재료여무회숙료상대응양화물함량단항평형적기출상,건립다원계통선성비제차배료방정조,종중구해출배비미지량,유차축보계산,실현조강철려산염특충수니생료배비적도추계산。
The pre- designed main mineral composition of clinker and the corresponding calculated moduli were determined as the guiding control value. The multi- factor and linear non- similar equation group for raw meal proportion was established on the basis of the balance of the compositions of clinker without coal ash and of the ignited raw materials and fuel. The proportioning plan was thus solved through the step- by- step calculation, and the proportioning of the raw meal of high early strength ferro- aluminate special cement by reverse calculating was realized.
