analyzing non-furfurals
分析非呋喃醛
detecting non-furfurals
检测非呋喃醛
presence of non-furfurals
非呋喃醛的存在
non-furfurals content
非呋喃醛含量
reducing non-furfurals
降低非呋喃醛
identifying non-furfurals
识别非呋喃醛
non-furfurals formation
非呋喃醛形成
avoiding non-furfurals
避免非呋喃醛
measuring non-furfurals
测量非呋喃醛
levels of non-furfurals
非呋喃醛水平
researchers are investigating the potential of non-furfurals as sustainable biofuels.
研究人员正在调查非呋喃醛作为可持续生物燃料的潜力。
the formation of non-furfurals during biomass pyrolysis is a complex process.
生物质热解过程中非呋喃醛的形成是一个复杂的过程。
catalytic conversion of non-furfurals to valuable chemicals is an active area of research.
催化转化非呋喃醛为有价值的化学品是一个活跃的研究领域。
non-furfurals can be derived from various biomass sources, including agricultural residues.
非呋喃醛可以从各种生物质来源中提取,包括农业残留物。
the yield of non-furfurals is influenced by reaction conditions and catalyst selection.
非呋喃醛的产量受反应条件和催化剂选择的影响。
understanding non-furfurals' behavior is crucial for optimizing biofuel production.
理解非呋喃醛的行为对于优化生物燃料生产至关重要。
the presence of non-furfurals can impact the overall efficiency of the process.
非呋喃醛的存在会影响整个过程的效率。
selective oxidation of non-furfurals offers a route to furan derivatives.
选择性氧化非呋喃醛为呋喃衍生物提供了一条途径。
non-furfurals' chemical structure allows for diverse chemical modifications.
非呋喃醛的化学结构允许进行多样化的化学修饰。
the stability of non-furfurals under different storage conditions is a key consideration.
在不同储存条件下非呋喃醛的稳定性是一个关键的考虑因素。
advanced analytical techniques are used to quantify non-furfurals in biomass samples.
先进的分析技术被用于量化生物质样品中的非呋喃醛。
the economic viability of non-furfurals production depends on feedstock costs and market demand.
非呋喃醛生产的经济可行性取决于原料成本和市场需求。
analyzing non-furfurals
分析非呋喃醛
detecting non-furfurals
检测非呋喃醛
presence of non-furfurals
非呋喃醛的存在
non-furfurals content
非呋喃醛含量
reducing non-furfurals
降低非呋喃醛
identifying non-furfurals
识别非呋喃醛
non-furfurals formation
非呋喃醛形成
avoiding non-furfurals
避免非呋喃醛
measuring non-furfurals
测量非呋喃醛
levels of non-furfurals
非呋喃醛水平
researchers are investigating the potential of non-furfurals as sustainable biofuels.
研究人员正在调查非呋喃醛作为可持续生物燃料的潜力。
the formation of non-furfurals during biomass pyrolysis is a complex process.
生物质热解过程中非呋喃醛的形成是一个复杂的过程。
catalytic conversion of non-furfurals to valuable chemicals is an active area of research.
催化转化非呋喃醛为有价值的化学品是一个活跃的研究领域。
non-furfurals can be derived from various biomass sources, including agricultural residues.
非呋喃醛可以从各种生物质来源中提取,包括农业残留物。
the yield of non-furfurals is influenced by reaction conditions and catalyst selection.
非呋喃醛的产量受反应条件和催化剂选择的影响。
understanding non-furfurals' behavior is crucial for optimizing biofuel production.
理解非呋喃醛的行为对于优化生物燃料生产至关重要。
the presence of non-furfurals can impact the overall efficiency of the process.
非呋喃醛的存在会影响整个过程的效率。
selective oxidation of non-furfurals offers a route to furan derivatives.
选择性氧化非呋喃醛为呋喃衍生物提供了一条途径。
non-furfurals' chemical structure allows for diverse chemical modifications.
非呋喃醛的化学结构允许进行多样化的化学修饰。
the stability of non-furfurals under different storage conditions is a key consideration.
在不同储存条件下非呋喃醛的稳定性是一个关键的考虑因素。
advanced analytical techniques are used to quantify non-furfurals in biomass samples.
先进的分析技术被用于量化生物质样品中的非呋喃醛。
the economic viability of non-furfurals production depends on feedstock costs and market demand.
非呋喃醛生产的经济可行性取决于原料成本和市场需求。
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