煤炭化验计算法

煤炭化验指标计算公式1.灰分：把煤粉碎后称1克，放入850度的马弗炉中燃烧1小时后取出，冷却后称量（温度低煤时长）。

计算公式：灰分=（烧后总重-灰皿重）÷原煤总重×100%注：记录准确每个灰皿重量2.挥发分：把煤粉碎后称1克，放入900度的马弗炉中燃烧7分钟后取出，冷却后称量（温度时间要准确）计算公式：挥发分=（原煤重-烧后灰重）÷原煤重×100%-分析水注：记录准确每个挥发分坩埚带盖的总重3.分析水：把煤粉碎后称1克，放入145度的干燥箱中烘干30分钟后取出，冷却后称量。

计算公式：分析水=（原煤重-烘干后的煤重）÷原煤重×100%注：记录准确每个小称量瓶带盖的总重4.全水：取13mm以下的原煤10克，放入145度的干燥箱中烘干30分钟后取出，冷却后称量。

计算公式：全水=（原煤重-烘干后的煤重）÷原煤重×100%注：记录准确每个大称量瓶带盖的总重5.固定碳：计算公式：固定碳=100-灰分-挥发分-分析水6.发热量：①分析基低位发热量焦耳/克烟煤：35860-73.7×挥发分-395.7×灰分-702×分析水+173.6焦×焦碴特性无烟煤：34814-24.7×挥发分-382.2×灰分-563×分析水②收到基低位发热量［（23×分析水+分析基低位发热量）×（100-全水）］÷（100-全水）-23×全水H=2.888+0.393×√V-0.0023×A7.焦渣特性分类:测定挥发分所得焦渣特征,按下列规定加以区分:①粉状：全部是粉末，没有相互粘着的颗粒。

②粘着：用手指轻碰即成粉末或基本上是粉末，其中较大的团块轻轻一碰即成粉末。

③弱粘结：用手指轻压即成小块。

④不熔融粘结：手指用力压才裂成小块，焦渣上表面无光泽，下表面稍有银白色光泽。

煤炭检尺计算公式
煤炭检尺是煤炭行业中常用的一种测量方法，用于确定煤炭的体积和重量。

煤炭的体积是指煤炭所占据的空间，而重量则是指煤炭的质量。

煤炭检尺的计算公式主要包括体积计算公式和重量计算公式。

1.体积的计算公式：
煤炭的体积可以通过测量煤堆的直径、高度和形状来计算。

常用的体积计算公式包括：
1.1煤堆体积计算公式
煤堆体积（V）=π*(D/2)²*H
1.2堆化因子法
堆化因子法是一种常见的近似计算方法，适用于煤堆形状复杂的情况下。

根据观察和经验，可以将煤堆的实际体积乘以一个堆化因子得到近似值。

堆化因子一般是0.7-0.9之间。

2.重量的计算公式：
煤炭的重量可以通过煤炭的体积和密度来计算。

常用的重量计算公式包括：
2.1煤炭质量计算公式
煤炭质量（M）=V*ρ
其中，V是煤炭的体积；ρ是煤炭的密度。

2.2煤炭空隙率法
煤炭空隙率法是一种常用的近似计算方法，通过测量煤堆的长度、宽
度和高度，然后根据观察和经验，选择合适的煤炭空隙率系数进行计算。

以上是煤炭检尺的一般计算公式。

需要注意的是，煤炭的性质和形状
可能会有所不同，在实际计算中需要根据具体情况进行调整和修正。

另外，除了计算公式，还需要考虑到温度、湿度等因素对煤炭体积和重量的影响。

因此，在进行煤炭检尺时，建议结合实际情况和专业知识，综合运用多种
方法，以获得更准确的结果。

煤炭水分化验计算公式煤炭是一种重要的能源资源，其水分含量是影响燃烧性能和热值的重要指标。

因此，准确测定煤炭水分含量对于煤炭质量评价和利用具有重要意义。

煤炭水分化验计算公式是用来计算煤炭水分含量的一种方法，通过化验得到的数据和公式计算，可以准确地得出煤炭的水分含量，为煤炭的利用和评价提供了重要的依据。

煤炭水分化验计算公式的基本原理是根据煤炭中水分的含量与煤样的质量和体积之间的关系，通过化验得到的数据，利用计算公式计算出煤炭的水分含量。

一般情况下，煤炭水分含量的计算公式可以分为干燥基和空气干燥基两种计算方法。

下面将分别介绍这两种计算方法的公式和具体步骤。

一、干燥基煤炭水分计算公式。

1. 干燥基煤炭水分计算公式的基本原理。

干燥基煤炭水分计算公式是以煤炭的干燥基为基础，通过化验得到的煤样的湿基水分含量、灰分含量和挥发分含量，结合煤样的质量和体积，计算出煤炭的水分含量。

其中，煤炭的湿基水分含量是指煤样中天然存在的水分含量，灰分含量是指煤样中的无机物含量，挥发分含量是指煤样在加热过程中释放出的挥发性物质的含量。

2. 干燥基煤炭水分计算公式的具体步骤。

（1）首先，根据化验结果得到煤样的湿基水分含量（M_ad）、灰分含量（A_d）和挥发分含量（V_d）。

（2）然后，根据煤样的质量和体积，计算出煤样的干燥基水分含量（M_d）。

（3）最后，利用以下公式计算出煤炭的水分含量（M）：M = M_d / (1 M_d)。

其中，M为煤炭的水分含量，M_d为煤炭的干燥基水分含量。

二、空气干燥基煤炭水分计算公式。

1. 空气干燥基煤炭水分计算公式的基本原理。

空气干燥基煤炭水分计算公式是以煤炭的空气干燥基为基础，通过化验得到的煤样的空气干燥基水分含量、灰分含量和挥发分含量，结合煤样的质量和体积，计算出煤炭的水分含量。

2. 空气干燥基煤炭水分计算公式的具体步骤。

（1）首先，根据化验结果得到煤样的空气干燥基水分含量（M_ad）和灰分含量（A_d）。

煤化验计算公式范文一、煤的基本质量指标1.碳含量（C）煤的主要成分是碳，碳含量是评价煤炭质量的重要指标之一、碳含量可用以下公式计算：碳含量（%）=（固定碳+Ct）/（干煤质量）×100其中，固定碳是煤在一定条件下在干燥石英管中热解后产生的非挥发分的质量，Ct是瞬间火焰温度计观察干燥后的煤样闪点温度。

2.氢含量（H）煤的主要有机组成是碳和氢，氢含量是评价煤质的重要指标之一、氢含量可用以下公式计算：氢含量（%）=H/（干煤质量）×100其中，H为氢测定质量。

3.氧含量（O）煤的主要有机组成是碳和氢，因此氧含量也是评价煤质的重要指标之一、氧含量可用以下公式计算：氧含量（%）=（干煤中的Fe2O3质量）/（干煤质量）×100其中，Fe2O3质量是通过化学方法测定得到的。

4.氮含量（N）煤的主要有机组成是碳和氢，而氮含量相对较低。

氮含量可用以下公式计算：氮含量（%）=（干煤中的Ni质量）/（干煤质量）×100其中，Ni为氮测定质量。

5.灰分（A）煤在燃烧时，其中的无机物和杂质会残余下来，形成灰分。

灰分可用以下公式计算：灰分（%）=（干煤中的灰质量）/（干煤质量）×100其中，灰质量是通过将煤在一定条件下进行灰化，然后用石英瓷坩埚加热测定得到的。

二、煤的热值计算煤的热值是煤燃烧释放出的热能。

常用的煤热值计算公式有：1. 高位发热量（Qgr）高位发热量是完全燃烧单位质量煤所产生的热量。

可以用以下公式计算：Qgr（kJ/kg）=固定碳×32.8+（可燃有机质+Ct）×34.8+H×144.5其中，固定碳、可燃有机质和H的单位都是%。

2. 低位发热量（Qnetar）低位发热量是完全燃烧单位质量煤后，燃烧产物（燃烧废气和灰分）的热量与完全燃烧前煤的质量之比。

可以用以下公式计算：Qnetar（kJ/kg）=Qgr（kJ/kg）-0.09A（%）其中，A为灰分。

煤炭化验流程第一步：取样五点取样法要领，按对角线取五个点，不要表层，每点一铁锨共取一桶。

使取的煤样尽量具有代表性，随机取样。

将取的的煤样拌匀，分选，最后留下一公斤左右作为待化验煤样，如果有块煤请挑选出过破碎机。

第二步：化验水分采过来的煤第一步需要做水分，也就是煤的外水。

所需器皿：称量瓶电子天平干燥箱化验方法和公式如下先将干燥箱打开，将温度升到150度，在天平上将称量瓶称出，记下皮重。

再称出10--11克煤记下煤重。

在干燥箱里烘1个小时，取出后凉凉，在天平上称出重量记下烘过后的重量。

公式如下：皮重＋煤重-烘过后质量 --------------------- *100% 煤重第三步：烘干制样用不锈钢盘子装上大概200克左右的煤样在干燥箱里烘干，150度烘大概30分。

干燥后在制样机里研磨制成煤样，以下所有的项目均是制过样后的煤。

第四步：做硫，安说明书操作。

第五步：灰分先将炉子升到850度，程控按说明书操作。

在天平上称出灰皿的重量，记下皮重。

再称出1克左右的煤样，记下煤重。

打开高温炉炉们，将称好的煤样慢慢推入到炉子里，烧不低于40分钟的时间。

要点1，推入过程要慢，煤不能爆燃。

要点2，烧的时间要足够。

公式如下：烧过后的质量-皮重 ------------------ *100% 煤重第六步：挥发份先将炉子升到900度，程控按说明书操作。

在天平上称出坩埚的重量，记下皮重。

再称出1克左右的煤样，记下煤重。

打开炉门，迅速将称好的煤放入炉子里。

看表，七分钟后取出，凉凉，称出烧过后的重量。

皮重＋煤重-烧过后的重量----------------------- *100% - 1% 煤重第七步：发热量按说明书操作。

煤炭化验的流程：基本流程：采样——破碎——干燥——制样——实验分析步骤说明：1、原煤采样：使用采样工具，参照国际常见采样方式，采集原煤；2、破碎：使用专业破碎机或者普通破碎方式把采集到原煤破碎卫6mm一下的原煤颗粒。

煤炭化验公式（Coal test formula）1. ash:The coal pulverizing said 1 grams, put in the muffle furnace 850 degree burn was removed after 1 hours, after cooling (low temperature coal weighing time).Formula: = (total - ash after burning coal, cupel heavy weight) * 100%Note: each record accurate weight cupel2. volatile matter:The coal pulverizing said 1 grams, put in the muffle furnace 900 degree burn for 7 minutes, cooling after weighing (temperature to the exact time)Formula: = (volatile coal - ash after burning heavy weight / weight * 100%-) coal water analysisNote: the total weight of each volatile crucible cover is recorded accurately3. analysis of water:After grinding the coal, weigh 1 grams and put it in a dry oven of 145 degrees. After 30 minutes, remove it and weigh it after cooling.Formula: = (gravimetric analysis of water coal after dryingcoal, coal and heavy weight) * 100%Note: accurate gross weight of each small weighing bottle with cover4. whole water:Take 10 grams of raw coal under 13mm and dry in a 145 degree drying oven. Remove after 30 minutes and weigh after cooling.Formula: water = (coal weight - dried coal / coal heavy weight) * 100%Note: the gross weight of each big weighing bottle with a lid is recorded accurately5. fixed carbon:Calculation formula: fixed carbon =100- ash volatile analysis water6. calories:Analysis of base low calorific value of Joule / gramBituminous coal: 35860-73.7 * volatile, -395.7 * ash, -702 * analysis water, +173.6 coke * char characteristicsAnthracite: 34814-24.7 * volatile, -382.2 * ash, -563 * analysis waterReceive the base low calorific valueThe (23 + X analysis of water based analysis of low calorific value (100-) * (100- / water): water) -23 * full of waterH=2.888+0.393 * V-0.0023 * A *Source: /c52985/news/d51336.html ()A new formula for calculating calorific value of coal is recommendedI. PrefaceCalorific value of coal is an important index to evaluate the quality of coal. It is the main basis for calculating the heat consumption and standard coal consumption of clinker. In addition to a small number of large factories using oxygen bomb calorimeter, the vast majority of cement enterprises are using industrial analysis results, using empirical formula to calculate the calorific value of coal.In the past the formula is not unified, therefore, the original building materials department issued the "notice" provisions on the calculation method of fuel calorific value and unified standard coal in 1980, empirical formula provisions of the notice for the three formula 60s Academy of coal derived late: bituminous coal, anthracite and lignite calorific formula. The formula is listed in the appendix of laboratory manual. The above three formulas play an important role in the heatconsumption of cement, coal and clinker and the assessment of standard coal consumption in cement enterprises. But this formula also has some defects and limitations, such as the calorific value of coal and water, ash, volatile and coke residue features, but then the derivation of the formula, not the quantitative characteristics of coke slag into the formula, but according to the size of packet feature list K char value. When calculating the calorific value of coal, the K value is calculated according to the characteristic size of the coke residue and then incorporated into the formula. It is not only troublesome to calculate, but also the calculation error of some volatile coal samples at the boundary is increased because of the change of K value. Therefore, the coal Coal Institute led by Professor Chen Wenmin in "75" science and technology project, collected a large number of national coal sample data, using multiple regression method, using the computer, a large number of data processing, study to derive a bituminous coal, anthracite, lignite and low calorific value of empirical formula.There are two sets of calculations for the new formula. First, the low calorific value formula of various coals is calculated by elemental analysis. Two is to calculate the low calorific value formula of bituminous coal, anthracite coal and lignite by means of industrial analysis of coal. It is more accurate to calculate the calorific value of coal by elemental analysis, but the measurement work has not been carried out in cement plant. Therefore, a new formula for calculating calorific value by using the industrial analysis results of coal is introduced,The concrete application of cement production coal is brieflyintroduced. In the actual production of each factory, the new and old formulas are calculated and compared. At the appropriate time, the new formula will be listed as the national standard to replace the old formula to calculate the calorific value of coal.The newly established formula for rapid calculation of low calorific value of coal will be of great economic and social benefits for coal and coal producing enterprises.Two. A new formula for calculating the calorific value of coal using the coal industry analysis resultsIn the light of the results of coal industry analysis, the principles and methods for establishing new formulas for calculating low calorific value of coal are no longer detailed. The formula for practical application is only as follows:1. a new formula for calculating low calorific value of bituminous coalA calculation that is expressed in joules:Qnet.ad = 35859.9-73.7Vad-395.7Aad-702.0Mad+173.6CRC Jiao / gOr a formula expressed in cards:Qnet.ad = 8575.63-17.63Vad-94.64Aad-167.89Mad+41.52CRC card / gramQnet.ad - analyze basal low calorific value;Vad - analytical base volatile (%);Aad - analytical base ash (%);Mad - Analysis Base moisture (%);CRC -- characteristics of cinder.2. new formula for calculating low calorific value of anthraciteA calculation that is expressed in joules:Qnet.ad=34813.7-24.7Vad-382.2Aad-563.0Mad Jiao / gOr a formula expressed in terms of cards:Qnet.ad=8325.46-5.92Vad-91.41Aad-134.63Mad card / gramIf the conditions can determine the H value, or obtain the average value of the previous H value from the fixed coal mining area, the low calorific value of anthracite calculated by using the method will be more accurate.A formula expressed in terms of joule:Qnet.ad=32346.8-161.5Vad-345.8Aad-360.3Mad+1042.3Had Jiao / gOr a formula expressed in cards:Qnet.ad=7735.52-38.63Vad-82.70Aad-86.16Mad+249.27Had card / gram3. a new formula for calculating low calorific value of ligniteA formula expressed in terms of joule:Qnet.ad=31732.9-70.5Vad-321.6Aad-388.4Mad Jiao / gOr a formula expressed in cards:Qnet.ad=7588.69-16.85Vad-76.91Aad-92.88Mad card / gram4. when calculating the standard coal consumption in the production of cement, the analytical base heat (Qnet.ad) calculated according to the above formula is converted into the low calorific value (Qnet.ar) of coal by using the following formula, and then the standard coal consumption is calculated.Calculation formula of low calorific value of coal100-Mad 100-MarQnet.ar=Qnet.ad * - -23 (MarMad * -) kJ / g100-Mad 100-MadArticle links: China environmental protection equipment exhibition network/Tech_news/Detail/11393.htmlAll water samples (= [heavy - weight - after the experiment, the same weight tare)] * 100%Ash ash [x = ARB (100 - water (100-), analysis of water).From the base of volatile volatile x = [(100 - water (100-), analysis of water).Air drying base:Ash (= after the experiment, heavy weight and tare) * 100%Analysis of water samples [= weight (weight - the tare)], sample weight x 100%Volatile = [- sample weight (experiment after weight - tare)] / * 100% - Analysis of water sample weight%Fixed carbon =100% (ash volatile water% + of your% + of your%)Dry base:Dry ash ash = / (100 - x 100% analysis of water)Dry volatile volatile 83019 = (100 - x 100% analysis of water)Dry ash free volatile volatile 83019 = (100 - x 100% analysis of water - ash)Calorific value of instrument for measuring coal calorificvalue1) calculate the low calorific value formula of air dried base of bituminous coal:Qnet, ad = 35859.9-73.7Vad-395.7Aad-702.0Mad + 173.6CRC(2) calculation of low calorific value formula for dry air base of anthracite:Qnet, ad = 34813.7-24.7Vad-382.2Aad-563.0Mad(3) calculation of low calorific value formula for dry air base of lignite:Qnet, ad = 31732.9-70.5Vad-321.6Aad-388.4MadFormula: Qnet, ad--, air dried base, low calorific value, J / g;Mad, Aad and Vad-- are dry air, moisture, ash, volatile matter,% of coal;Characteristics of coke residue in CRC-- bituminous coal.Calorific value of coal is an important index to evaluate the quality of coal. It is the main basis for calculating the heat consumption and standard coal consumption of clinker. In addition to a small number of large factories using oxygen bomb calorimeter, the vast majority of cement enterprises are using industrial analysis results, using empirical formula tocalculate the calorific value of coal.In the past the formula is not unified, therefore, the original building materials department issued the "notice" provisions on the calculation method of fuel calorific value and unified standard coal in 1980, empirical formula provisions of the notice for the three formula 60s Academy of coal derived at the end of that bituminous coal, DSC anthracite and lignite low heat formula. The formula is listed in the appendix of laboratory manual. The above three formulas play an important role in the heat consumption of cement, coal and clinker and the assessment of standard coal consumption in cement enterprises. But this formula also has some defects and limitations, such as the calorific value of coal and water, ash, volatile and coke residue features, but then the derivation of the formula, not the quantitative characteristics of coke slag into the formula, but according to the size of packet feature list K char value. When calculating the calorific value of coal, the K value is calculated according to the characteristic size of the coke residue and then incorporated into the formula. It is not only troublesome to calculate, but also the calculation error of some volatile coal samples at the boundary is increased because of the change of K value. Therefore, the coal Coal Institute led by Professor Chen Wenmin in "75" science and technology project, collected a large number of national coal sample data, using multiple regression method, using the computer, a large number of data processing, study to derive a bituminous coal, anthracite, lignite and low calorific value of empirical formula.There are two sets of calculations for the new formula. First,the low calorific value formula of various coals is calculated by elemental analysis. Two is to calculate the low calorific value formula of bituminous coal, anthracite coal and lignite by means of industrial analysis of coal. It is more accurate to calculate the calorific value of coal by elemental analysis, but the measurement work has not been carried out in cement plant. Therefore, a new formula for calculating calorific value by using the industrial analysis results of coal is introduced, and the concrete application of cement production coal is briefly introduced. In the actual production of each factory, the new and old formulas are calculated and compared. At the appropriate time, the new formula will be listed as the national standard to replace the old formula to calculate the calorific value of coal.The newly established formula for rapid calculation of low calorific value of coal will be of great economic and social benefits for coal and coal producing enterprises.Two. A new formula for calculating the calorific value of coal using the coal industry analysis resultsWith the result of coal industry analysis, the principle and method of establishing new formula for calculating low calorific value of coal are no longer detailed. The formula for practical application is only as follows:1. a new formula for calculating low calorific value of bituminous coalA calculation that is expressed in joules:Qnet.ad = 35859.9-73.7Vad-395.7Aad-702.0Mad+173.6CRC Jiao / gOr a formula expressed in cards:Qnet.ad = 8575.63-17.63Vad-94.64Aad-167.89Mad+41.52CRC card / gramQnet.ad - analyze basal low calorific value;Vad - analytical base volatile (%);aad - - 分析基灰分 (%);mad - 分析基水分 (%);the crc - 焦渣特征.煤质化验仪器2.计算无烟煤低位发热量新公式以焦耳表示的计算方式:qnet.ad = 34813.7-24.7vad-382.2aad-563.0mad 焦 / 克或者以卡制表示的计算式:qnet.ad = 8325.46-5.92vad-91.41aad-134.63mad 卡 / 克如果有条件能测定h值, 量热仪或者从固定用煤矿区取得矿区以往h 值的平均值, 用下式计算的无烟煤低位发热量结果精度更高.煤质分析仪器煤炭检测设备以焦耳表示的计算式:qnet.ad = 32346.8-161.5vad-345.8aad-360.3mad + 1042.3had 焦 / 克或者用卡制表示的计算式:qnet.ad = 7735.52-38.63vad-82.70aad-86.16mad + 249.27had 卡 / 克3.计算褐煤低位发热量新公式以焦耳表示的计算式:qnet.ad = 31732.9-70.5vad-321.6aad-388.4mad 焦 / 克或者用卡制表示的计算式:qnet.ad = 7588.69-16.85vad-76.91aad-92.88mad 卡 / 克4.在水泥生产使用中, 计算标准煤耗时, 按上述公式计算的分析基低位发热量 (qnet.ad) 用下式换算成应用煤低位发热量 (qnet.ar) 后, 再计算标准煤耗.应用煤低位发热量计算公式100 - mad 100 - marqnet.ar = qnet.ad× ------- 23 (mar－mad× 焦 / 克...)100 - 100 - mad, mad三、结语利用煤工业分析计算煤炭低位发热量的新公式, 与目前水泥企业应用的旧公式相比, 精度有较大的提高, 其中烟煤计算的低位发热量标准误差为89卡 / 克 (372焦 / 克), 精度比旧公式提高15%, 无烟煤计算的低位发热量标准误差为73卡 / 克 (305焦 / 克), 精度比旧公式提高34%, 褐煤计算的低位发热量标准误差为94卡 / 克(393焦 / 克), 精度比旧公式提高36%.新公式的误差与灰分有关,如灰分 (干燥基) 大于40% 则误差有所增大.而且灰分越高其误差越大.因此使用时要注意当灰分大于40% 以上时, 应另选公式.新创立的煤炭发热量计算公式为没有发热量测定设备的广大水泥企业提供了一个精度比较高的计算方法, 但是当前水泥企业化验室的煤工业分析水平有待进一步提高, 主要问题是分析人员操作规范性比较差, 缺少煤工业分析的专用器皿, 以及设备中的一些问题.因此, 计算公式精度再高, 分析结果不准也会产生很大的误差.。

煤质化验步骤和基本公式
一．取样：要从多处取样混合均匀
二．做外水：取样300g~~~500g样重，烘干箱温度为105度，烘1.5个小时
M外水=（M1-M2）/M1X100
M1……………………………………………..湿煤样重
M2……………………………………………..烘干后的煤样重三．制样：粉碎机粉碎2分钟
四．做内水：称1g煤样，烘1个小时
Mad=（M1-M2）/M1X100
Mad……………………………………………. 内水
M1……………………………………………..烘干前的煤样重
M2…………………………………………….烘干后的煤样重五．做硫含量：称50mg样重，数据直接输入到仪器里，按OK
六．做灰分：称1g煤样
Aad=M1/M2X100
Aad……………………………………………. 灰分
M1……………………………………………..烧后的灰渣重
M2…………………………………………….煤样重
七．做挥发分：称1g煤样，
Vad=M1/M2X100-Mad
Vad……………………………………………. 挥发分
M1……………………………………………..加热后减少的重量
M2…………………………………………….煤样重
Mad……………………………………………. 内水
七．固定炭：C=100- Vad- Aad- Mad
Vad……………………………………………. 挥发分
Aad……………………………………………. 灰分
Mad……………………………………………. 内水
八．全水：全水=外水+内水(不是简单相加)
Mt=Mf+(1-Mf)*Min
九．做发热量：输入纸重，输入总重，煤参数，按测量键即可。

煤质化验计算公式
一、元素含量计算公式：
1.元素质量分数（%）=元素质量含量/总煤样质量×100%
其中，元素质量含量=煤样中元素的质量/煤样的质量
二、发热量计算公式：
1. 低位发热量（MJ/kg）= 发热量试值/ (1 + 0.1 × 挥发分（%）)
2.发热量试值（J/g）=34.8×碳（%）+9
3.7×氢（%）+9×硫（%）
+0.24×氧（%）-3.7×水（%）-0.45×水（%）×灰分（%）
其中，发热量试值（J/g）是指标准工况下，燃烧器压力、温度和湿
度等条件确定时，单位质量燃烧产生的能量。

低位发热量是在燃烧过程中，燃烧产生的水蒸气中蒸发热能被全部回收的情况下计算的发热量。

三、挥发分计算公式：
1.挥发分（%）=(失重/初始试样质量)×100%
其中，失重是初始试样质量与在指定温度下煤样质量的差值。

四、固定碳计算公式：
1.固定碳（%）=(试样质量-挥发分持续加热后质量)/试样质量×100%
五、灰分计算公式：
1.灰分（%）=(灰渣质量/试样质量)×100%
六、硫含量计算公式：
1.硫（%）=(硫的质量/试样质量)×100%
以上是常见的煤质化验计算公式，不同的煤质化验项目可能还会有其他不同的计算公式，具体计算方法需根据具体项目的规定和实验要求进行计算。