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1.
耕作措施和秸秆还田对双季稻田土壤氮渗漏的影响 总被引:5,自引:2,他引:3
针对免耕稻田土壤物理性状的改变引起的土壤氮素淋洗问题,通过定位试验研究了不同耕作措施的稻田土壤氮素特征,为免耕稻田氮素的高效利用提供依据。研究在我国双季稻典型区湖南省宁乡县长期定位试验田进行,该试验地自2005年设置免耕秸秆还田(NT)、旋耕秸秆还田(RT)、翻耕秸秆还田(CT)和翻耕秸秆不还田(CT0)4种耕作处理,重复3次。使用定水头法分层测定0~80 cm土壤导水率,测定分析各处理80cm处土壤渗漏液铵态氮、硝态氮含量差异。研究结果表明,NT 0~80 cm土壤的饱和导水率较CT提高了63.14%,NT铵态氮、硝态氮渗漏量显著高于其他处理。秸秆还田措施使早稻耕作覆水初期渗漏水中硝态氮含量显著高于不还田处理。从全年淋失总量估算结果来看,各处理铵态氮渗漏量约是硝态氮的2倍。总之,相对于耕作处理,免耕会使氮素淋失量增加,而长期淹水条件下稻田铵态氮渗漏应得到更多的重视。 相似文献
2.
不同土壤耕作法对作物产量及土壤硝态氮淋失的影响 总被引:30,自引:3,他引:30
针对华北平原小麦—玉米两熟区不同土壤耕法下玉米产量及玉米生育期土壤硝态氮迁移进行研究,结果表明,翻耕模式下玉米产量最高,免耕下最低。在0~180 cm土体中,收获期与苗期相比,翻耕硝态氮含量平均减少了66.6%;旋耕平均减少了21.7%;免耕则平均减少了20.9%。累积峰出现的深度与硝态氮淋失有直接关系。对比3种模式,翻耕累积峰最深,硝态氮淋失威胁最大;免耕无明显累积峰。在施肥、灌溉等影响硝态氮淋失的可控因子以外,从耕作模式上研究硝态氮淋失是今后研究的方向。 相似文献
3.
少免耕模式对冬小麦花后旗叶衰老和产量的影响 总被引:7,自引:2,他引:5
小麦开花后旗叶的生理活性对产量存在显著影响.为了研究少免耕耕作体系对冬小麦旗叶衰老状况的影响,采用4种土壤耕作模式(常规耕作秸秆还田、旋耕秸秆还田、耙耕秸秆还田、免耕秸秆覆盖)在山东龙口进行了3年田间试验,研究了耕作模式对小麦产量及花后不同时期旗叶超氧化物歧化酶(SOD)和过氧化物酶(POD)活性、丙二醛(MDA)和可溶性蛋白含量的影响.结果表明:与常规耕作秸秆还田模式相比,旋耕秸秆还田和耙耕秸秆还田模式旗叶衰老过程中活性氧清除系统的自动调节能力较强,SOD、POD活性变化幅度较常规耕作模式平稳;免耕覆盖模式小麦旗叶在蜡熟期MDA含量显著低于其他模式,而可溶性蛋白含量显著高于其他模式,表现出明显的贪青晚熟的特点.旋耕秸秆还田和耙耕秸秆还田模式产量与常规耕作秸秆还田差异不显著,免耕秸秆覆盖模式产量显著低于其他耕作模式.研究表明短期(1~3年)少耕耕作模式可以在该地区应用,而免耕覆盖则不适宜. 相似文献
4.
旱地地膜和秸秆双元覆盖栽培下小麦产量与水分效应 总被引:16,自引:3,他引:13
通过覆盖措施提高水分利用率对旱地农业生产具有重要意义。该文采用田间对比试验,研究了旱地冬小麦几种覆盖栽培下产量、水分利用率、土壤水分剖面和硝态氮的分布的差异。结果表明,地膜和秸秆双元覆盖模式下小麦籽粒产量比对照增产12.11%~17.65%,水分利用效率(WUE)比常规栽培提高7.2%~30.8%,土壤0~20 cm土层的含水量提高到12%~16%,硝态氮含量提高到4.70~10.17 mg/kg。地膜和秸秆双元覆盖模式能够显著的提高作物产量和水分利用率,并显著增加耕层土壤中水分含量和硝态氮含量,减轻了土壤剖面硝态氮的淋溶累积。 相似文献
5.
科学耕作与留茬改良小麦-玉米两熟农田土壤物理性状及增产效果 总被引:2,自引:3,他引:2
为了探讨不同覆盖耕作方式对农田土壤物理性状及作物产量的影响,该试验研究了免耕、常规2种耕作方式和4种留茬高度的玉米秸秆还田处理,对麦-玉两熟农田土壤含水率、容重、孔隙度以及作物产量的影响。结果表明:在0~40cm土层内,秸秆还田的集雨和保水效果显著,免耕留茬0.5m还田处理的含水率比免耕无覆盖处理增加了15.95%。秸秆还田量对0~40cm内土壤贮水量的影响不同。耕作措施显著影响了土壤容重,小麦播种前常规留茬1m还田、常规全量还田处理容重低至1.0g/cm3左右。秸秆还田能增加土壤总孔隙度、降低毛管与非毛管孔隙度的比值。单一免耕处理降低了作物产量,而免耕覆盖能增产,其留茬1m还田处理比无还田处理增产22.44%,比常规留茬0.5m还田处理高3.64%。因此,免耕留茬1m还田处理在改善农田土壤物理性状和增加作物产量方面显著,该研究可为农田管理过程中耕作措施和秸秆还田量的选择提供参考依据。 相似文献
6.
耕作措施对土壤特性及作物产量的影响 总被引:59,自引:9,他引:59
通过夏玉米田间试验研究了不同耕作措施及秸秆覆盖对土壤特性、水分状况、作物产量及水分利用效率的影响。试验处理包括常规耕作、深松、秸秆覆盖、垄作、浅坑及免耕。结果表明,秸秆覆盖可显著提高土壤蓄水量、作物产量及水分利用效率。其保水增产效果在干旱年份更加明显。深松可有效打破犁底层降低其密度,可增加作物根深、根长及根重,提高作物产量和水分利用效率。免耕可提高夏玉米早期田间土壤含水率,保持相同产量。 相似文献
7.
为探讨保护性耕作和秸秆还田有机结合对春玉米休闲期蓄水保墒效果、生育期土壤水分时空变化、贮水量季节变化、产量及水分利用效率的影响,设置不同耕作方式(免耕、深松、翻耕)结合秸秆还田(100%秸秆还田、秸秆不还田)6个处理组合,2016-2018年在山西晋中连续2年进行定位试验研究。结果表明:(1)春玉米冬闲期不同耕作处理下土壤贮水量差异显著,且随着时间推移贮水量都有降低趋势,免耕和深松处理分别较翻耕土壤贮水量平均增加10.4,9.3 mm。在玉米的整个生育时期,免耕和深松处理土壤贮水量分别比翻耕提高4.8%,1.2%。(2)平均2年土壤含水量大小顺序为免耕>深松>翻耕,各处理平均土壤含水量分别为23.0%,21.8%,21.5%。丰水年不同耕作方式土壤含水量垂直变化在各生育时期差异较大,干旱年其变化的差异较小。(3)免耕与100%秸秆还田组合下玉米产量和水分利用效率最高,2年平均产量和WUE(水分利用效率)分别为12 679.9 kg/hm2和25.8 kg/(hm2·mm),翻耕与100%秸秆还田处理组合最低。无论是否秸秆还田,免耕和深松处理在春玉米冬闲期土壤蓄水保墒效果、生育期土壤水分状况、产量与水分利用效率均优于翻耕处理;在秸秆还田下免耕和深松耕作方式对玉米田水分的集蓄保用有良好的效果,以免耕秸秆还田效果最佳,可在晋中地区春玉米生产中推广应用。 相似文献
8.
以翻耕、免耕、秸秆还田3种不同农作处理,探讨保护性耕作措施对淹水稻田土壤中60 cm埋深处渗漏液铵态氮(NH4+-N)、硝态氮(NO3--N)含量动态变化的情况.结果表明:不同耕作处理的水稻田中,硝态氮的流失都大于铵态氮,施肥是引起土壤氮素渗漏的原因之一;免耕结合秸秆覆盖,使硝态氮在土壤中容易迁移下渗. 相似文献
9.
不同秸秆还田方式对春玉米产量、水分利用和根系生长的影响 总被引:8,自引:3,他引:5
为探究耕作方式和秸秆还田对春玉米产量、土壤水肥及根系分布的影响,通过连续两年设置耕作方式(旋耕、翻耕)与秸秆还田方式(秸秆还田、秸秆不还田)两因素田间定位试验,研究了春玉米产量和水分利用效率、根系及土壤水肥分布的特性。结果表明:旋耕和翻耕处理春玉米产量和水分利用效率差异不显著,但前者显著增加了干旱年份(2015年)0—30cm土层的根长密度、根表面积密度和根干重密度,而后者显著降低了10—30cm土层的土壤容重和紧实度,降低了0—40cm土层的土壤含水量、有效磷和速效钾含量,提高了干旱年份30—60cm和湿润年份(2016年)0—60cm土层的根长密度、根表面积密度和根干重密度;秸秆还田较秸秆不还田处理显著增加了春玉米产量和水分利用效率,增加幅度分别为9.5%和7.3%,促进了干旱年份0—60cm土层的根长密度和湿润年份30—60cm土层的根长密度、根表面积密度和根干重密度的增加,还提高了0—60cm土层的土壤含水量、硝态氮、有效磷和速效钾含量。因此,实施旋耕秸秆还田和翻耕秸秆还田可以改善土壤水肥分布,促进深层根系发育,提高春玉米的产量和水分利用效率。 相似文献
10.
陇中半干旱地区不同耕作措施对土壤水分及利用效率的影响 总被引:25,自引:4,他引:25
通过分析6种不同耕作措施对定西半干旱地区春小麦土壤水分年变化和垂直变化的影响,结合春小麦产量分析了不同耕作措施的水分利用率。结果表明,免耕秸秆覆盖和传统耕作秸秆覆盖两个处理土壤贮水量少,但水分利用效率高。而免耕不覆盖和免耕覆膜2个处理土壤贮水量最多,但作物的水分利用率最低。从不同耕作措施对土壤贮水量的影响看,表现为TW6>TW3>TW1>TW5>TW2>TW4,而水分利用率则为TW2>TW4>TW1>TW5>TW3>TW6。 相似文献
11.
为高效去除废水中过量的磷酸盐为目的,该研究将研究利用艾草生物质与镧溶液共生共热的方法制成具有大量纳米级碳酸氧镧突起的镧基复合生物炭材料,研究了材料投加量、初始磷酸盐浓度、吸附时间、初始溶液pH值和共存离子对其吸附磷酸盐性能的影响及饱和磷吸附镧基复合生物炭材料(La-CB2-P)对生菜种子发芽率的试验。试验结果表明:La-CB2最佳投加量为1 g/L,最佳吸附温度为25 ℃,对磷酸盐的吸附主要为多分子层吸附,Langmuir模型模拟最大吸附容量为126.82 mg/g,并在12h内达到吸附平衡,酸性至中性水环境中La-CB2吸附性能更优,并对碱性水环境的pH值具有缓冲作用,在pH值为3时La3+浸出率为7.66%,其他pH值条件下仅为0.029%左右,在磷吸附过程中La-CB2的DOC溶出量随着初始溶液pH值的升高呈先增后减的趋势,在多种共存阴离子中对磷酸盐具有很强的选择性吸附,水体中的腐殖酸会大幅度降低La-CB2对磷酸盐的吸附性能。饱和磷吸附镧基复合生物炭材料(La-CB2-P)能够作为磷缓释肥显著促进生菜发芽,对La-CB2在富营养水体的磷吸附及资源回收提供了大量的理论基础。 相似文献
12.
The effects of elevated CO2 supply on N2O and CH4 fluxes and biomass production of Phleum pratense were studied in a greenhouse experiment. Three sets of 12 farmed peat soil mesocosms (10 cm dia, 47 cm long) sown with P. pratense and equally distributed in four thermo-controlled greenhouses were fertilised with a commercial fertiliser in order to add 2, 6 or 10 g N m−2. In two of the greenhouses, CO2 concentration was kept at atmospheric concentration (360 μmol mol−1) and in the other two at doubled concentration (720 μmol mol−1). Soil temperature was kept at 15 °C and air temperature at 20 °C. Natural lighting was supported by artificial light and deionized water was used to regulate soil moisture. Forage was harvested and the plants fertilised three times during the basic experiment, followed by an extra fertilisations and harvests. At the end of the experiment CH4 production and CH4 oxidation potentials were determined; roots were collected and the biomass was determined. From the three first harvests the amount of total N in the aboveground biomass was determined. N2O and CH4 exchange was monitored using a closed chamber technique and a gas chromatograph. The highest N2O fluxes (on average, 255 μg N2O m−2 h−1 during period IV) occurred just after fertilisation at high water contents, and especially at the beginning of the growing season (on average, 490 μg N2O m−2 h−1 during period I) when the competition of vegetation for N was low. CH4 fluxes were negligible throughout the experiment, and for all treatments the production and oxidation potentials of CH4 were inconsequential. Especially at the highest rates of fertilisation, the elevated supply of CO2 increased above- and below-ground biomass production, but both at the highest and lowest rates of fertilisation, decreased the total amount of N in the aboveground dry biomass. N2O fluxes tended to be higher under doubled CO2 concentrations, indicating that increasing atmospheric CO2 concentration may affect N and C dynamics in farmed peat soil. 相似文献
13.
Potassium (K) and nitrogen (N) are essential nutrients for plants. Adsorption and desorption in soils affect K+ and NH + 4 availabilities to plants and can be affected by the interaction between the electrical double layers on oppositely charged particles because the interaction can decrease the surface charge density of the particles by neutralization of positive and negative charges. We studied the effect of iron (Fe)/aluminum (Al) hydroxides on desorption of K+ and NH + 4 from soils and kaolinite and proposed desorption mechanisms based on the overlapping of diffuse layers between negatively charged soils and mineral particles and the positively charged Fe/Al hydroxide particles. Our results indicated that the overlapping of diffuse layers of electrical double layers between positively charged Fe/Al hydroxides, as amorphous Al(OH) 3 or Fe(OH) 3 , and negatively charged surfaces from an Ultisol, an Alfisol, and a kaolinite standard caused the effective negative surface charge density on the soils and kaolinite to become less negative. Thus the adsorption affinity of these negatively charged surfaces for K+ and NH + 4 declined as a result of the incorporation of the Fe/Al hydroxides. Consequently, the release of exchangeable K+ and NH +4 from the surfaces of the soils and kaolinite increased with the amount of the Fe/Al hydroxides added. The greater the positive charge on the surfaces of Fe/Al hydroxides, the stronger was the interactive effect between the hydroxides and soils or kaolinite, and thus the more release of K+ and NH + 4 . A decrease in pH led to increased positive surface charge on the Fe/Al hydroxides and enhanced interactive effects between the hydroxides and soils/kaolinite. As a result, more K+ and NH + 4 were desorbed from the soils and kaolinite. This study suggests that the interaction between oppositely charged particles of variable charge soils can enhance the mobility of K+ and NH + 4 in the soils and thus increase their leaching loss. 相似文献
14.
Argyro Zerva 《Soil biology & biochemistry》2005,37(11):2025-2036
We examined the effects of forest clearfelling on the fluxes of soil CO2, CH4, and N2O in a Sitka spruce (Picea sitchensis (Bong.) Carr.) plantation on an organic-rich peaty gley soil, in Northern England. Soil CO2, CH4, N2O as well as environmental factors such as soil temperature, soil water content, and depth to the water table were recorded in two mature stands for one growing season, at the end of which one of the two stands was felled and one was left as control. Monitoring of the same parameters continued thereafter for a second growing season. For the first 10 months after clearfelling, there was a significant decrease in soil CO2 efflux, with an average efflux rate of 4.0 g m−2 d−1 in the mature stand (40-year) and 2.7 g m−2 d−1 in clearfelled site (CF). Clearfelling turned the soil from a sink (−0.37 mg m−2 d−1) for CH4 to a net source (2.01 mg m−2 d−1). For the same period, soil N2O fluxes averaged 0.57 mg m−2 d−1 in the CF and 0.23 mg m−2 d−1 in the 40-year stand. Clearfelling affected environmental factors and lead to higher daily soil temperatures during the summer period, while it caused an increase in the soil water content and a rise in the water table depth. Despite clearfelling, CO2 remained the dominant greenhouse gas in terms of its greenhouse warming potential. 相似文献
15.
Rachhpal Jassal Andy Black Mike Novak Kai Morgenstern Zoran Nesic David Gaumont-Guay 《Agricultural and Forest Meteorology》2005,130(3-4):176-192
To better understand the biotic and abiotic factors that control soil CO2 efflux, we compared seasonal and diurnal variations in simultaneously measured forest-floor CO2 effluxes and soil CO2 concentration profiles in a 54-year-old Douglas fir forest on the east coast of Vancouver Island. We used small solid-state infrared CO2 sensors for long-term continuous real-time measurement of CO2 concentrations at different depths, and measured half-hourly soil CO2 effluxes with an automated non-steady-state chamber. We describe a simple steady-state method to measure CO2 diffusivity in undisturbed soil cores. The method accounts for the CO2 production in the soil and uses an analytical solution to the diffusion equation. The diffusivity was related to air-filled porosity by a power law function, which was independent of soil depth. CO2 concentration at all depths increased with increase in soil temperature, likely due to a rise in CO2 production, and with increase in soil water content due to decreased diffusivity or increased CO2 production or both. It also increased with soil depth reaching almost 10 mmol mol−1 at the 50-cm depth. Annually, soil CO2 efflux was best described by an exponential function of soil temperature at the 5-cm depth, with the reference efflux at 10 °C (F10) of 2.6 μmol m−2 s−1 and the Q10 of 3.7. No evidence of displacement of CO2-rich soil air with rain was observed.Effluxes calculated from soil CO2 concentration gradients near the surface closely agreed with the measured effluxes. Calculations indicated that more than 75% of the soil CO2 efflux originated in the top 20 cm soil. Calculated CO2 production varied with soil temperature, soil water content and season, and when scaled to 10 °C also showed some diurnal variation. Soil CO2 efflux and concentrations as well as soil temperature at the 5-cm depth varied in phase. Changes in CO2 storage in the 0–50 cm soil layer were an order of magnitude smaller than measured effluxes. Soil CO2 efflux was proportional to CO2 concentration at the 50-cm depth with the slope determined by soil water content, which was consistent with a simple steady-state analytical model of diffusive transport of CO2 in the soil. The latter proved successful in calculating effluxes during 2004. 相似文献
16.
浮萍对福州平原稻田CH4和N2O排放的影响分析 总被引:2,自引:0,他引:2
浮萍是稻田中常见的漂浮在水面的水生植物,具有固氮作用,但是,浮萍对稻田温室气体排放的影响尚不明确.以位于湿润亚热带的福州平原稻田为研究对象,探讨浮萍对该区域稻田CH4和N2O排放的影响,为科学评价、准确编制我国水稻田温室气体排放清单提供基础数据.研究结果表明,观测期内,有萍小区和无萍小区CH4排放范围分别为0.19~26.50 mg·m-2·h-1和1.02~28.02 mg·m-2·h-1,平均值分别为9.28 mg·m-2·h-1和11.66 mg·m-2·h-1,有萍小区CH4排放低于无萍小区(P<0.01),有萍小区CH4排放高峰比无萍小区约提前1周,高峰期后排放迅速降低;有萍小区和无萍小区N2O排放范围分别为-50.11~201.82 μg·m-2·h-1和-28.93~54.42μg·m-2·h-1,平均值分别为40.29 μg·m-2·h-1和11.93 μg·m-2·h-1,有萍小区N2O排放高于无萍小区(P<0.05).稻田排干后,N2O排放迅速上升,2个小区N2O排放呈现出相似的规律.有萍小区和无萍小区的CH4与N2O排放的影响因子有所不同.综合考虑CH4和N2O两种温室气体,CH4仍是稻田温室效应产生的主要贡献者,浮萍可降低位于沿海区域的福州平原稻田综合温室效应的17.3%. 相似文献
17.
The effects of compaction on soil porosity and soil water relations are likely to influence substrate availability and microbial activity under fluctuating soil moisture conditions. We conducted a short laboratory incubation to investigate the effects of soil compaction on substrate availability and biogenic gas (CO2 and N2O) production during the drying and rewetting of a fine-loamy soil. Prior to initiating the drying and wetting treatments, CO2 production (−10 kPa soil water content) from uncompacted soil was 2.3 times that of compacted soil and corresponded with higher concentrations of microbial biomass C (MBC) and dissolved organic C (DOC). In contrast, N2O production was 67 times higher in compacted than uncompacted soil at field capacity. Soil aeration rather than substrate availability (e.g. NO3− and DOC) appeared to be the most important factor affecting N2O production during this phase. The drying of compacted soil resulted in an initial increase in CO2 production and a nearly two-fold higher average rate of C mineralization at maximum dryness (owing to a higher water-filled pore space [WFPS]) compared to uncompacted soil. During the drying phase, N2O production was markedly reduced (by 93-96%) in both soils, though total N2O production remained slightly higher in compacted than uncompacted soil. The increase in CO2 production during the first 24 h following rewetting of dry soil was about 2.5 times higher in uncompacted soil and corresponded with a much greater release of DOC than in compacted soil. MBC appeared to be the source of the DOC released from uncompacted soil but not from compacted soil. The production of N2O during the first 24 h following rewetting of dry soil was nearly 20 times higher in compacted than uncompacted soil. Our results suggest that N2O production from compacted soil was primarily the result of denitrification, which was limited by substrates (especially NO3−) made available during drying and rewetting and occurred rapidly after the onset of anoxic conditions during the rewetting phase. In contrast, N2O production from uncompacted soil appeared to be primarily the product of nitrification that was largely associated with an accumulation of NO3− following rewetting of dry soil. Irrespective of compaction, the response to drying and rewetting was greater for N2O production than for CO2 production. 相似文献
18.
中国农村户用沼气工程建设对减排CO2、SO2的贡献——分析与预测 总被引:6,自引:2,他引:6
农村户用沼气工程是中国可再生能源建设的重点项目,可为农村居民生活提供清洁的可再生能源,该工程的建设能减轻农村环境污染,有助于部分缓解全球气候变暖的趋势。该文根据国际通用的减排量计算方法,对中国农村户用沼气替代传统生物质能和煤炭所产生的CO2和SO2的减排量进行了计算分析,为制定农村能源发展战略和农村环境发展规划提供参考。研究结果表明,在1996~2003年间,每年可减少CO2排放39.76~419.39万t,减少SO2排放2.13~6.20万t。通过对2010、2020和2050年沼气替代农村传统能源减排CO2和SO2量的预测,证明农村户用沼气工程的建设可以有效减少CO2和SO2的排放。 相似文献
19.
The effects of H2 gas treatment of an agricultural soil cultivated previously with a mixture of clover (Trifolium pratense) and alfalfa (Medicago sativa) on CO2 dynamics and microbial activity and composition were analyzed. The H2 emission rate of 250 nmol H2 g−1 soil h−1 was similar to the upper limit of estimated H2 amounts emitted from N2 fixing nodules into the surrounding soil ([Dong, Z., Layzell, D.B., 2001. H2 oxidation, O2 uptake and CO2 fixation in hydrogen treated soil. Plant and Soil 229, 1-12.]). After 1 week of H2 supply to soil samples simultaneously with H2 uptake net CO2 production declined continuously and this finally led to a net CO2 fixation rate in the H2-treated soil of 8 nmol CO2 g−1 soil h−1. The time course of H2 uptake and CO2 fixation in the soils corresponded with an increase in microbial activity and biomass of the H2-treated soil determined by microcalorimetric measurements, fluorescence in situ hybridization analysis (FISH) and DNA staining (DAPI). Shifts in the bacterial community structure caused by the supply of H2 were recorded. While the H2 treatment stimulated β-and γ-subclasses of Proteobacteria, it had no significant effect on α-Proteobacteria. In addition, FISH-detectable bacteria of the Cytophaga-Flavobacterium-Bacteroides phylum increased in numbers. 相似文献
20.
在空闲拱棚和黄瓜日光温室内,分别研究了化学反应法(H2SO4+NH4HCO3)、煤球燃烧法和颗粒CO2气肥3种肥源的性能,并与液体CO2进行成本比较,结果表明:化学反应法产气迅速,设备折旧成本较低;煤球燃烧法产气速度中等,原料成本最低;颗粒CO2气肥产气速度较慢且不易调控,原料成本最高。考虑化学反应产物的再利用因素,化学反应法、煤球燃烧法和液体CO2 3种肥源总成本接近,但从生态、节能、成本和效果等方面综合评价,煤球燃烧法原料丰富、成本低廉,较符合我国目前的设施、经济、资源和技术条件。 相似文献