长江中下游成矿侵入岩的特征研究

长江中下游的侵入岩体，尤其是燕山期的侵入岩体面广量大．它们与区内铜、铁、金等矿产关系密切。本文通过对侵入岩体地质特征、岩石化学成分等对比研究后，总结出如下几个特点：1、侵入体主要形成时代为135-95Ma，自西向东有逐渐变新的趋势；2、与成矿有关者多数是复式岩体，与铜矿化有关的主要是燕山早期侵入岩，与铁矿化有关的则主要是燕山晚期侵入岩；3、多数岩体受到过中、下三叠统蒸发岩层（膏盐层）的同化混染；4、岩体含碱质高，在Na2O－SiO2关系图上显示出二者没有相关性；5、侵入体中的铜有可能提供部分铜矿床的物源；6、岩石化学成分上某些组分的对比研究表明，成铜矿与成铁矿岩体之间、成矿岩体和无矿岩体之间有一定程度的差异。     

煤热解过程中无机有害元素的变迁规律

在自行设计的加压密闭快速热解反应器中研究了神华和义马煤中Na、K、Pb和Mn等无机有害元素在氮气条件下随温度（300℃-700℃)的变化规律,进一步考察了热解气氛（氮气、氢气和二氧化碳）、压力对神华煤中这4种元素逸出规律的影响。结果表明：Na、K、Pb和Mn等元素在半焦中的残留量随温度的升高而减少,减少量随煤种而异,如在700℃时,神华煤中Na、K、Pb和Mn的析出率分别是义马煤的3、4．2、1．4和2．4倍;低压快速加氢热解有利于这4种元素的逸出。Pb是挥发性最强的元素,与热力学计算结果一致。     

电石渣和铝土粉的高温燃烧脱硫特性及微观分析

研究了电石渣和铝土粉作为燃煤添加剂的高温脱硫特性及其微观反应机理，发现在1200℃下燃煤中同时添加电石渣和铝土粉时，低温硫析出峰与只添加电石渣时几乎一致，而高温硫析出峰则大大降低，从而使脱硫率由30．5％明显提高到45．19％．XRD和SEM分析表明：电石渣中富含的CaO以及铝土粉中富含的Al2O3，与燃煤固硫过程中生成的部分CaSO4在高温下反应生成了耐热物相“硫铝酸钙”，是钙铝基添加剂比单纯钙基具有更高脱硫率的最主要原因．另外铝土粉增强了电石渣燃煤固硫渣的熔融程度，从而使硅酸盐熔融物有更多机会将CaSO4等固硫产物包裹以抑制其高温分解，是它具有更高脱硫率的另一个原因．     

钙类化合物固硫作用动力学分析

通过钙类化合物对动力用煤固硫作用的模拟试验 ,对不同钙化合物固硫率 (J)与Ca/S及助剂关系的研究 ,得到了钙类化合物固硫率的次序 ,即 :JNaOH +CaO>JCaCO3>JCaO>JCa(OH) 2 ,结果说明固硫率与钙类化合物的存在形式有关 ,并解释了其固硫作用机理     

Reasons for non-participation in a kerbside recycling scheme

In this article potential barriers to recycling are explored within a UK community of approximately 8000 households that are piloting a kerbside paper recycling scheme. All 1690 non-users of the scheme were surveyed for their decisions not to participate. A 43% response rate was generated from the survey and the reasons given by householders were coded into 12 categories. The main reasons for non-participation included insufficient paper and lack of space in which to locate the recycling bin. 62% of the non-participants reported that they were recycling paper using other facilities such as local bring schemes and charity collections. Strategies to increase participation in the kerbside scheme are suggested.     

锅炉煤粉风管堵塞的预防和疏通

针对煤粉锅炉一次风管堵塞的现象，指出了易堵塞的部位。分析了造成堵塞的原因，提出了疏通处理方法和应注意的问题。     

新疆八一钢铁公司高炉喷吹烟煤安全措施

介绍了新疆八一钢铁公司高炉烟煤的特点，指出了喷煤系统存在的缺陷，总结了高炉喷吹烟煤所采取的安全措施。     

一起油罐爆炸火灾原因调查及分析

对一起油罐爆炸火灾事故进行了调查，对回流油速度进行了测算，从静电的产生和放电、爆炸性气体混合物的形成进行了分析和研究，指出了火灾原因，提出了应吸取的教训。     

锅炉房工艺设计中确定煤场面积的一种方法

本文以管理科学的库存理论为基础，以提高经济效益为目的，提出了一种全新的锅炉房煤场面积确定方法。     

Microbial cycling of iron and sulfur in acidic coal mining lake sediments

Lakes caused by coal mining processes are characterized by low pH, low nutrient status, and high concentrations of Fe(II) and sulfate due to the oxidation of pyrite in the surrounding mine tailings. Fe(III) produced during Fe(II) oxidation precipitates to the anoxic acidic sediment, where the microbial reduction of Fe(III) is the dominant electron-accepting process for the oxidation of organic matter, apparently mediated by acidophilic Acidiphilium species. Those bacteria can reduce a great variety of Fe(III)-(hydr)oxides and reduce Fe(III) and oxygen simultaneously which might be due to the small differences in the redox potentials under low pH conditions. Due to the absence of sulfide, Fe(II) formed in the upper 6 cm of the sediment diffuses to oxic zones in the water layer where itcan be reoxidized by Acidithiobacillus species. Thus, acidic conditions are stabilized by the cycling of iron which inhibits fermentative and sulfate-reducing activities. With increasing sediment depth, the amount of reactive iron decrease, the pH increases above 5, and fermentative and as yet unknown Fe(III)-reducing bacteria are also involved in the reduction of Fe(III). Sulfate is reduced apparently by the activity of spore-forming sulfate reducers including new species of Desulfosporosinus that have their pH optimum similar to in situconditions and are not capable of growth at pH 7. However, generation of alkalinity via sulfate reduction is reduced by the anaerobic reoxidation of sulfide back to sulfate. Thus, the microbial cycling of iron at the oxic-anoxic interface and the anaerobic cycling of sulfur maintains environmental conditions appropriate for acidophilic Fe(III)-reducing and acid-tolerant sulfate-reducing microbial communities.