生物催化剂脱硫过程（BDS）比传统精制厂的脱硫过程有许多优点，其中包括较低的投资与操作费用，在低温低压条件下操作和不需要氢气等。生物技术用于烃加工工业(HPI)作为科学家和工程技术人员的目标至少有四十年的历史。他们只不过得到有限的成果，只是改善了单一的处理性能。而没有一个人成功地开发出增加精制产品价值的生物技术基础过程。不管怎样，由于近期研究工作的突破和过去十年生物技术的进展，这种情况在今后五年内将会改变。把生物技术这一工艺应用于解决精制工业中的问题现在是可能的。专家收集了工程师唯一解决其它日用产品问题的生物加工万法，精制者能应用这些方法。由于精制工业不断变得更加复杂，作用更大，所以生物技术在医学和药剂工业之外的应用变得越来越有影响并且容易理解。作为结果，生物精制不是科学虚构出来的概念，而是表现出来的是科学。因此，在今后两三年内很有可能给精制提供成功的方法。 The biocatalyst desulfurization process (BDS) has many advantages over the desulfurization process of a traditional refinery, including lower investment and operating costs, operating at low temperatures and pressures, and not requiring hydrogen. Biotechnology for the Hydrocarbon Processing Industry (HPI) As a scientist and engineering technician, the goal is at least 40 years old. They have only limited results, but only improved single processing performance. No one has successfully developed a biotech-based process to increase the value of refined products. However, due to the recent breakthroughs in research and advances in biotechnology over the past decade, this situation will change in the next five years. It is now possible to apply the technology of biotechnology to solve problems in the refining industry. Experts have collected the only bioengineering methods that engineers use to solve other daily-use product problems. Refiners can apply these methods. As the refining industry continues to become more complex and functional, applications of biotechnology beyond the medical and pharmaceutical industry become more and more influential and understandable. As a result, biological refinement is not a concept that has been fictionalized by science, but rather science. Therefore, in the next two to three years is likely to provide a successful refining method.