Click here to load reader
Upload
harry-an
View
150
Download
1
Embed Size (px)
Citation preview
串联等式 – 热力学理论的完善和发展
伟大的科学家盖.吕萨克和焦耳的重要研究发现建立了焦耳定律,奠定了热力学和相关科
学的坚实基础,为相关科学的发展做出了杰出的贡献。中国河南的研究工作者经过多年潜
心研究得出“串联等式”,终于进一步完善了热力学理论并将进一步推进相关理论的发
展。
新闻中心
郑州格然林医药科技有限公司执行董事安浩云千人专家将出席美国
化学会第 251 次年会报告“串联等式”
安浩云千人专家将参加 2016年 3月 13-17日在美国圣地亚哥举行的美国化学会第
251次年会,并将以“理想气体的状态与内能关系的研究”为题,对热力学史上最新发现
的“串联等式”进行详细报告。
美国化学学会(ACS)是全球最大的科技协会。作为美国国会特许的非赢利性机构,
ACS 引导着全球化学界的潮流,成为世界各地化学家、化工工程师和相关专业人员的首要
专业聚集地。其年会早已成为全球化学家们展示、交流最新研究成果的综合性国际盛会。
安浩云博士表示,我们很高兴得到美国化学会年会委员会的赏识和给予的机会。首
席研究员姚晓武说:“我们研究出来的‘串联等式’涵盖了包括焦耳定律在内现行热力学
中理想气体理论的全部内容,使得停滞了近 200年的热力学基础理论有了重大突破,相信
它将推动热力学及相关领域的进一步发展并引起广泛的应用”。
251st ACS National Meeting – March 13-17, 2016, San Diego, California, USA
PAPER ID: 2377147; Paper No.: PHYS560
Studies on the Relationship between Internal Energy and State of Ideal Gas
Haoyun An1,2, [email protected], Xiaowu Yao1, Guosong Yang1, Junqing Hou1, Tiansheng Niu1 1Zhengzhou Granlen PharmaTech, Ltd., Zhengzhou, Henan, China; 2Granlen, Inc., Carlsbad,
California, United States
Abstract: Gay Lussac-Joule’s Law established the fundamental base and has played a very
important role for the development of thermodynamics and related basic sciences. Detail
experiment reported herein revealed that the internal energy of ideal gas has interrelationship with
each state function, and the Continued Equality was then established as:
VV
CU pV nC T
R where (
0lim 0T
U
) The Continued Equality derived through experiment is inclusive of free expansion and the
experimental result obtained by Rossini-Frandsen. Twelve differential equations were obtained
through theoretical derivation from various respects, and the twelve differential equations then
resulted in the same Continued Equality through substitution. The Continued Equality derived
herein experimentally and theoretically defined the interrelationship of internal energy of an ideal
gas system with each state function. It is the new addition to the current thermodynamics and
related basic theories, and the new addition will promote further development of current theories
and trigger broad applications.
For more information please visit www.granlen.com or
Contact Dr. Haoyun An, [email protected]
Mr. Xiaowu Yao, [email protected]
Ms. Sherry Li, [email protected]