The MICRO-WORLD in our ENVIRONMENT

ATMOSPHERIC PARTICLES

  • Roger J. CHENG, ASRC SUNY UALBANY

  • ATMOSPHERIC SCIENCES RESEARCH CENTER
  • STATE UNIVERSITY of NEW YORK
POWER PLANT EMISSION
ACID RAIN FORMATION
ECOLOGICAL EFFECT
ALBEDO of CLOUDS
BUILDING EROSION
ATMOSPHERIC PTS
CARBONACEOUS PTS
AIR POLLUTION CONTROL

 

A JOURNEY through MICROSCOPE exploring

The UNSEEN SECRETS of our ENVIRONMENT

纽约州立大学,大气科学研究中心 郑均华研究员主持的科研项目

 
 
WHO want to KNOW MORE the SECRETS of OUR ENVIRONMENT and
WHO wish to SEE the INDUSTRIAL EMISSIONS, ACID RAIN and the ECOLOGICAL EFFECTS on our ENVIRONMENT.

 

 
  • HOLLOW PARTICLES in the ATMOSPHERE
  • ROGER J CHENG, ASRC SUNY UALBANY
海洋中的微观世界--"The MICRO-WORLD in the MARINE ATMOSPHERE"
 大气空心粒子的发现
 1.火电排放;
 2.海洋气溶胶(海盐);
 3.火山灰

如若空心粒子在大气中是相当普遍的,那用来观测气溶胶粒子大小的仪器设备将无法用来

同时测量气溶胶粒子的质量。

 The DISCOVERY of HOLLOW ATMOSPHERIC PARTICLES
 1. Power Plant Emission;
 2. Marine (sea salt) Aerosol;
 3. Volcanic Ash
If hollow particles are common in the atmosphere, then instruments that measure particle size cannot be used to obtain particle mass. (TSP).

IF HOLLOW PARTICLES ARE COMMON in the ATMOSPHERE

  • THEN INSTRUMENTS that MEASURE PARTICLE SIZE
  • CANNOT BE USED TO OBTAIN PARTICLE MASS (TSP)
POWER PLANT EMISSION
ACID RAIN FORMATION
ECOLOGICAL EFFECT
ALBEDO of CLOUDS
BUILDING EROSION
ATMOSPHERIC PTS
CARBONACEOUS PTS
AIR POLLUTION CONTROL

 

  • *****POWER PLANT EMISSION****

  • ROGER J. CHENG, ASRC UALBANY SUNY

 

 

 

北京沙尘--电镜的观察

BEIJING SAND DUST -SEM OBSERVATION

Roger J. CHENG, ASRC SUNY UALBANY

纽约州立大学,大气科学研究中心 郑均华研究员 的科研项目

北京沙尘--电镜的观察

BEIJING SAND DUST -SEM OBSERVATION

SAND DUST (left) from GOBI DESERT-? and FLYASH(right) from POWER PLANT ?

http://rogerjcheng.com/ENVIRONMENT-ATMOSPHERIC%20PARTICLES.htm

http://rogerjcheng.com/ENVIRONMENT-CLIMATE%20CHANGE.htm

 

 

CHARACTERIZATION of DIFFERENCES between

OIL-FIRED and COAL-FIRED POWER PLANT EMISSIONS

SHEN T T-NEW YORK STATE DEPT.of ENVIRONMENTAL CONSERVATION

CHENG R J & MOHNEN V A --ASRC UALBANY SUNY

CURRENT M & HUDSON J B-RESSELAER POLYTECHNIC INSTITUTE

The 4th INTERNATIONAL CLEAN AIR CONGRESS

MAY16-20, 1977-TOKYO, JAPAN

 
  • The FORMATION of HOLLOW
  • SEA-SALT PARTICLES

from the EVAPORATION of DROPS of SEAWATER

Roger J. Cheng, Duncan C. Blanchard and Ramon J. Ciprianoa

  • Atmospheric Sciences Research Center
  • State University of New York at Albany
  • Received 12 December 1986; accepted 31 July 1987.

Abstract

Some non-volatile materials dissolved in water drops will, upon evaporation of the water, produce a hollow shell of the material. Though known for years in the chemical engineering literature, this fact was not appreciated by those working with the marine sea-salt aerosol. Our laboratory experiments show that a majority of seawater drops in free fall in air with a relative humidity less than about 60% evaporate, become salt-saturated, and change phase to produce hollow sea-salt particles. Some hollow salt particles have been found in marine air, though further investigation is required to show the extent of this phenomenon. Expressions have been derived from which both the size of the original drop of seawater and its salt supersaturation at the time of phase change can be calculated from the inner and outer radii of the salt shell. If hollow particles are common in the marine aerosol, then instruments that measure particle size cannot be used to obtain particle mass.

Résumé

Certaines substances non volatiles dissoutes dans les gouttes d'eau produisent, à l'évaporation de l'eau, des coquilles creuses. Ce processus est bien connu en génie chimique, et pourtant il n'en est pas tenu compte dans les travaux sur les aérosols salins océaniques. Nos expériences de laboratoire montrent que lorsque des gouttes du de mer tombent en chute libre dans de l'air à moins de 60% d'humidité relative, la plupart d'entre elles arrivent à saturation et changent de phase pour produire des particules salines creuses. On a d'ailleurs trouvé des particules creuses de sel dans de l'air marin, mais d'autres recherches sont nécessaires pour connaître l'étendue du phénomène. On présente des relations qui donnent la dimension de la goutte originale d'eau de mer, ainsi que la sursaturation au changement de phase, à partir des rayons intérieurs et extérieurs de la coquille de sel. S'il est prouvé que les particules creuses sont courantes dans l'aérosol marin, on ne pourra pas utiliser les appareils qui mesurent les dimensions des particules pour évaluer la masse de l'aérosol.

 

Atmospheric Research

Volume 22, Issue 1, Pages 15-25 June 1988,

 

 

 

 

 

 

  

 

 

  • The FORMATION of HOLLOW SEA-SALT PARTICLES
  • from the EVAPORATION of DROPS of SEAWATER
  • ROGER J. CHENG
  • ASRC SUNY UALBANY

***CITATION***

by DR. H.K. PRUPPACHER'S TEAM of GERMANY

A, "A Wind Tunnel Study on the Drop-to-Particle Conversion"
JOURNAL of AEROSOL SCIENCES,
Vol.23, No.3, 1992.

by Dr. Pruppacher's term at Institute of Atmospheric Physics, Germany)

 

B, MICROPHYSICS OF CLOUDS AND PRECIPITATION ;
By Dr. Pruppacher and Dr. Klett,
Second Revised and Enlarged Edition.
Kluwer Academic Publishers, 1997

 

 

A NEW MECHANISM for the GENERATION of

HIGH SULFATE ENRICHED AEROSOLS in the MARINE ATMOSPHERE

(CaSO/4, MgSO/4---NOT DMS)

Roger J. CHENG: ASRC SUNY UALBANY

****大气中的微观世界 系列****

纽约州立大学,大气科学研究中心 郑均华研究员主持的科研项目

 

Presented at: 9th WORLD CLEAN AIR CONGRESS

AUGUST 30- SEPTEMBER 4, 1992

MONTREAL, QUEBEC, CANADA

 
 

 

 

ROGER J. CHENG, ASRC SUNY UALBANY
PARTICLES EXHAUSTED from AUTOMOBILE

CATALYST PLUGGING in VEHICLES

WEATHER MODIFICATION by AUTO EXHAUST

*******************************************************

  • MICROSCOPIC STUDY of LEAD IODIDE-
  • NUCLEATED ICE CRYSTALS

  • ROGER J. CHENG, ASRC SUNY UALBANY
SEEDS of LEAD may BLOOM into CLOUDY DAYS

NATURE JOURNAL-1982-in CHINESE

 汽车废气可能影响天气吗?.... 观察与实验结果
 
 自然杂志  1982年 5卷1期

王明康 教授   南京大学 大气科学系,中美交流学者

郑均华 研究员   纽约州立大学 大气科学研究中心

 《自然杂志》 198201
 车废气可能影响天气吗?
王明康  郑均华  

【摘要】:正随着工业生产和交通运输的不断发展,每天从工厂和汽车排出的大量废气不但影响人体的健康,而且,
从气象角度来看,还可能影响天气
以汽车废气为例,汽油中含有,废气中排出后就有可能和大气中的碘相结合,形成碘化,它和碘化银相似,
在大气科学中用来产生大量人工冰晶,正是这种方法可以弥补自然云体中冰晶的不足……..
HOME
ATMOSPHERIC
SCIENCES
SNOW and ICE
CLOUD SEEDING
FREEZING
of A WATER DROP
FRAGMENTATION
of A FROZEN DROP
MELTING of
A FROZEN DROP
CHARGE within
An ICE CRYSTAL
PUBLICATION
and CITATION

 

  • INDUSTRIALLY GENERATED ASBESTOS FIBERS:
  • CHARACTERIZATION and ENVIRONMENTAL HEALTH

  • ROGER J CHENG, ASRC UALBANY SUNY

References:

1, Cheng, R.J.and A.M. Pitaniello "Characterization and Identification of Asbestos". Proceedings of AGGIH Symposium on Asbestos Identification and Measurement. OSRA Training Center, Des Plaines, Ill. USA, 1979

2, Cheng,R.J. "The Identification of Asbestos by Electron Microscopy", Proceedings of the Air Pollution Control Association, 73rd Annual Meeting, Montreal, Canada, 1980

3, Hershey, D.C and R.J. Cheng "Identifying Asbestos in Building Material" Proceedings of Pittsburgh Conference & Exposition on Analytical Chemistry and Applied Spectroscopy, New Orleans, LA.USA, 1988

4, Cheng, R.J. "Industrially Generated Asbestos Fibers: Characterization and Environmental Risk Assessment". Workshop on Indoor air Pollution and Environmental Health, Sponsored by The Environmental Protection Administration, Taipei, Taiwan, China, 1989

5, Reports on Asbestos by: A, American Lung Association B, Consumer Product Safety Commission C, United States Environmental Protection Agency
The MICRO-WORLD in the ATMOSPHERE
-The ROLE of FINE PARTICLES

Roger J. CHENG, ASRC UALBANY SUNY

 

 

  • The MICROSCOPE probes BEAUTY in POLLUTION
  • DIALOGUE-
  • JIAO-LIU
  • 4/1986
ROGER J CHENG, ASRC SUNY UALBANY
 

 
  • HOLE in ONE on ASRC'S 18th GREEN
  • CHENG with HIS TOYS and HAVING FUN-ASRC-SUNY

HOME
ATMOSPHERIC
SCIENCES
SNOW and ICE
CLOUD SEEDING
FREEZING
of A WATER DROP
FRAGMENTATION
of A FROZEN DROP
MELTING of
A FROZEN DROP
CHARGE within
An ICE CRYSTAL
PUBLICATION
and CITATION
POWER PLANT EMISSION
ACID RAIN FORMATION
ECOLOGICAL EFFECT
ALBEDO of CLOUDS
BUILDING EROSION
ATMOSPHERIC PTS
CARBONACEOUS PTS
AIR POLLUTION CONTROL