Thermal Physics & Thermodynamics (2008-2010)

After my solar research was given up, I decided to return to my old day learning subject - that is thermophysics. Now among the four key subjects of thermophysics - thermodynamics, fluiddynamics, heat transfer and combustion, I determined to choose thermodynamics as my potential research area, as this is the basics for all other three subject areas. Thermodynamics, unlike what were known to me n my university days, are developed into many new areas of applications. Among them I have exploited the following subbranches:

Non-equilibrium Thermodynamics
Nanothermodynamics,
Thermoeconomics, (exergoeconomic) and exergetic analysis
Mesoscopic Thermodynamics (Thermodynamics Of Small Structures),
Cosmic Thermodynamics Or Thermodynamics Of The Universe,
Thermodynamics Of Cancers,
Thermodynamics & Thermophysics Of Life, and Biology
Solar Thermodynamics & Thermophysics (corona heating thermodynamics),
Thermodynamics and Thermophysics In Solar Radiation And Measurement,
Thermodynamics Of Solar Energy Systems, Solar Technology, Industry And Applications
SO2 pollution control (1989) - which was my research subject while pursuing master's degree and which was also my possible research subject when trying to do PhD at Zhejiang University in 2011 in Hangzhou.

Here below are shown some records of the studies over the past years:

Solar and Cosmic Thermodynamics.htm

Thermal Physics Thermodynamics.htm

Thermodynamics Literature.htm

Thermodynamics of Cancers Researches.htm

Thermodynamics Researches.htm

太阳热力学研究.htm

Solar & Cosmic Thermodynamics Research Program

Dear Sir or Madam:

I write you this email in order to seek an opportunity to conduct my research and writing program of thermodynamics job at your institution.

My name is Chen Minghua, 45, male Chinese, a postgraduate of thermophysics from Tongji University, Shanghai, China in June 1989.

I have a diversified career path in various industries and roles – refer to my resume (Resume.doc) attached. And now I have decided to reenter the academic world after many ears in the industry and business (see Background.doc for my reasoning) and I am now already executing my thermodynamic research plan – see the plan document (Researches.doc). My aim is to establish a comprehensive Solar & Cosmic Thermodynamics, starting from the thermodynamics of the solar industry and technology in the near terms (2009-2011). The goal of this research and study is to explore possibility to explain relevant thermodynamics phenomenon involved in the entire solar industry. Details see the attached document, or other backing information I will compile in the future.

I hope my research program will invoke your interests.

Sincerely yours,

Chen Minghua
Hangzhou
China
Tel: 0571-8169-1576
Websites: www.helioslab.org

October 17, 2016
Attachments:
The attachments are packed in the Attachments.rar file, which includes the following:
1) Background information – Background.doc,
2) Thermodynamics research plan draft - Researches.doc,
3) Thermodynamics literature - ThermoLiterature.doc,
4) Resume, Resume.doc

Thermodynamics & Thermophysics Research Program

Dear Sir or Madam:

My name is Chen Minghua, 46, male Chinese, a postgraduate of thermophysics from Tongji University, Shanghai, China in June 1989. I write you this email in order to seek an opportunity to conduct my research and writing program of thermodynamics of life or in biology at your institution.

I have a diversified career path in various industries and roles – refer to my resume (Resume.doc) at the link given. And now I am ready to execute my Thermodynamics & Thermophysics research plan – see the plan document (Researches.doc). My aim is to establish a comprehensive Solar Thermodynamics & Thermophysics, starting from the Thermodynamics & Thermophysics of human health (for example illness, particularly cancer) and Thermodynamics & Thermophysics of life. The goal of this research and study is to explore possibility to explain relevant Thermodynamics & Thermophysics phenomenon involved in the entire living process and health problems ?– from the daily activities to cure of specific illnesses. Details see the attached document, or other backing information I will compile in the future.

In addition, I am also interested in the overall development of the thermodynamics science, for that purpose, I have compiled a literature index (in its primitive form) of that science – see ThermoLiterature.doc. Based on this I will further detail the scope and indepth of the studies of thermodynamics, in order to compile a comprehensive review of the thermodynamics science in the medium term.

My another interest is my long-time hobby for foreign languages, apart from English – almost my working language, German, and French (reading capacity), I am also competent to some degree in Russian, and some knowledge in Latin, Greek and Hebrew. I will continue to improve these languages and in the near future, will add Spanish, Arabic and Japanese to my language menu. And then stop.

I still stay in China mainly because I want to take care of my parents at their old ages but now the situation of China and particularly my own situation is so bad that I can’t do so any longer. It’s becoming an unlivable country now, with the authoritative regime controlling the people and media stricter and stricter. The only option is to quit that damned place. More information about the reasons why I want to leave China refer to Persecution.doc provided at the link.

Now, I would like also to remind you that although I am at my mid-40, I am still young – look young, think young, study, work and live like a young student 20 years ago. I have not changed my life style ever since I left the universities, unlike other mid-aged.

I hope my research program will invoke your interests.

Sincerely yours

Chen Minghua
Hangzhou
China
Tel: 0571-8169-1576
Websites: http://groups.google.com/group/helioslab (main entry),
Others: http://www.helioslab.org/
Private site: https://sites.google.com/site/helioslab/
October 17, 2016
Attachments:
The attachments are to be found at the following link ?https://sites.google.com/site/helioslab/today/exodus, which includes the following documents:

1) Thermodynamics research plan draft - Researches.doc,
2 Thermodynamics literature - ThermoLiterature.doc,
3) Resume, Resume.doc ?
4) My political and economical status quo, Persecution.doc
5) Past Researches and Studies - Past_Studies.doc
6) Past Business - Past_Business.doc

Solar Thermodynamics Research Program

Dear Sir or Madam:

I write you this email in order to seek an opportunity to conduct my research and writing program of thermodynamics job at your institution.

My name is Chen Minghua, 45, male Chinese, a postgraduate of thermophysics from Tongji University, Shanghai, China in June 1989.

I have a diversified career path in various industries and roles – refer to my resume (Resume.doc) attached. And now I have decided to reenter the academic world after many ears in the industry and business (see Background.doc for my reasoning) and I am now already executing my thermodynamic research plan – see the plan document (Researches.doc). My aim is to establish a comprehensive Solar Thermodynamics, starting from the thermodynamics of the solar industry and technology in the near terms (2009-2011). The goal of this research and study is to explore possibility to explain relevant thermodynamics phenomenon involved in the entire solar industry. Details see the attached document, or other backing information I will compile in the future.

I hope my research program will invoke your interests.

Sincerely yours,

Chen Minghua
Hangzhou
China
Tel: 0571-8169-1576
Websites: http://helioslab.tripod.com ?http://www.geocities.com/helioslab/

2008-12-24
Attachments:
The attachments are packed in the Attachments.rar file, which includes the following:
1) Background information – Background.doc,
2) Thermodynamics research plan draft - Researches.doc,
3) Thermodynamics literature - ThermoLiterature.doc,
4) Resume, ?Resume.doc

Dear Prof.,

I am writing this letter to talk about a Research on NanoThermodynamics at your group or for your considering my funding applications for my researches on NanoThermodynamics at your Fund.

My research will focuses on NanoThermodynamics.

My question remains what can thermodynamics do for the nanoscience and how new theories shall be developed to adapt to the new dimension.

I am also n writing the book titled “NanoThermodynamics – a Comprehensive Review”.

This book will summarize all thermodynamic topics related to the nano-technologies, mainly in three areas – nanoscale thermodynamics, thermodynamics of nano-materials and thermodynamics of nano-technologies. They can further be subdivided into many sections, for example (incmplete)

Hill’s nanothermodynamics
Tsallis thermodynamics
Thermodynamics of Nano / Nanosize -systems
Thermodynamics of Nano-Processes
Thermodynamics of Nanomanufacturing / Nanofabrication
Thermodynamics of Nano-engineering
Thermodynamics of Nanomeasurements
Thermodynamics of Nano scale characterization
Thermodynamics of Nano-Phases
Thermodynamics of Nanoelectronics
Thermodynamics of Nanobiotechnology
Thermodynamics of Nano Tools
Thermodynamics of nanocanonical constraints
Thermodynamics of nanoclays
Thermodynamics of Nanodots
Thermodynamics of Nanostructures
Thermodynamics of Nano-materials
Thermodynamics of Nano-Porous Materials
Thermodynamics of Nanocrystals / Nanocrystalline materials
Thermodynamics of nanocomposites
Thermodynamics of Nanoparticles
Thermodynamics of nanofibres
Thermodynamics of Nanodroplets
Thermodynamics of Nano-fluids
Thermodynamics of Nano-Products
Thermodynamics of Nano-components
Thermodynamics of Nanodevices

Etc.

The book will describe each of these topic in full details: basic theory, research and application status. Key scientists, main problems, further research plans, problems.

I am planning to complete the writing of this book in two years.

I am not going to pursue a PhD or post-doc nor any specific academic titles. Instead I want to directly start my research without the needs of these programs.

For more details please refer to my research plans to be sent to you on demand.

Thank you very much for your kind consideration, your patience in reading this letter and I remain

Yours sincerely,

Chen Minghua
Shanghai, China
Supporting documents will be sent to you upon requests.

Microscopic Thermodynamics Research Program

Dear Sir or Madam:

I write you this email in order to seek an opportunity to conduct my research and writing program of thermodynamics job at your institution.

My name is Chen Minghua, 45, male Chinese, a postgraduate of thermophysics from Tongji University, Shanghai, China in June 1989.

I have a diversified career path in various industries and roles – refer to my resume (Resume.doc) attached. And now I have decided to reenter the academic world after many ears in the industry and business (see Background.doc for my reasoning) and I am now already executing my thermodynamic research plan – see the plan document (Researches.doc). My aim is to establish a comprehensive Microscopic Thermodynamics, starting from the thermodynamics of nano-scales and nano-science in the near terms (2009-2011). The goal of this research and study is to explore possibility to explain relevant thermodynamics phenomenon at the nano-level. Details see the attached document, or other backing information I will compile in the future.

I hope my research program will invoke your interests.

Sincerely yours,

Chen Minghua
Hangzhou
China
Tel: 0571-8169-1576

2008-12-24
Attachments:
The attachments are packed in the Attachments.rar file, which includes the following:
1) Background information – Background.doc,
2) Thermodynamics research plan draft - Researches.doc,
3) Thermodynamics literature - ThermoLiterature.doc,
4) Resume, ?Resume.doc

Microscopic Thermodynamics Research Program

My aim is to establish a comprehensive Microscopic Thermodynamics, starting from the thermodynamics of nano-scales and nano-science in the near terms (2009-2011). The goal of this research and study is to explore possibility to explain relevant thermodynamics phenomenon at the nano-level.

Research on NanoThermodynamics

My question remains what can thermodynamics do for the nanoscience and how new theories shall be developed to adapt to the new dimension.

I am also n writing the book titled “NanoThermodynamics – a Comprehensive Review”.

Hill’s nanothermodynamics
Tsallis thermodynamics
Thermodynamics of Nano / Nanosize -systems
Thermodynamics of Nano-Processes
Thermodynamics of Nanomanufacturing / Nanofabrication
Thermodynamics of Nano-engineering
Thermodynamics of Nanomeasurements
Thermodynamics of Nano scale characterization
Thermodynamics of Nano-Phases
Thermodynamics of Nanoelectronics
Thermodynamics of Nanobiotechnology
Thermodynamics of Nano Tools
Thermodynamics of nanocanonical constraints
Thermodynamics of nanoclays
Thermodynamics of Nanodots
Thermodynamics of Nanostructures
Thermodynamics of Nano-materials
Thermodynamics of Nano-Porous Materials
Thermodynamics of Nanocrystals / Nanocrystalline materials
Thermodynamics of nanocomposites
Thermodynamics of Nanoparticles
Thermodynamics of nanofibres
Thermodynamics of Nanodroplets
Thermodynamics of Nano-fluids
Thermodynamics of Nano-Products
Thermodynamics of Nano-components
Thermodynamics of Nanodevices

Etc.

The book will describe each of these topic in full details: basic theory, research and application status. Key scientists, main problems, further research plans, problems.

I am planning to complete the writing of this book in two years.

Dear Prof.,

I am writing this letter to talk about a Research on Thermodynamics of Cancers at your group or for your considering my funding applications for my researches on Thermodynamics of Cancers at your Fund.

My research focuses on applying/developing thermodynamic theory to detect and diagnose cancers.

The first step of my researches is to find out thermodynamic properties, which will be unique to cancer cells and thus can be used to monitor cancer development.

My overall mission, however, is to further explore the possibilities of, to track the development of and to find out ways of applying thermodynamics to, the carcinogenesis mechanism and the prevention and detection of cancer

by combining thermodynamics and oncology into one,
by identifying

thermodynamic, (entropy, enthalpy, Gibbs free energy, heat capacity, conductivity, opacity and others)
cytological,
biological? or
general physical

properties or formulations that can be used to judge as criteria of cancerous sign evolution, exactly as the Gibbs energy is the criteria for judging whether a particular chemical reaction may proceed under certain conditions

with non-classic thermodynamics (i.e.

non-equilibrium,
irreversible,
definite-time,
non-linear thermodynamics as well as,
dissipative theory etc)

at the specific domains (quantum, molecular, cellular and mesocopic levels)
of a particular type of cancer e.g. lung cancer
or a particular human organ/tissues
under specified conditions (carcinogenetic instances such as smoking etc)

I am not going to pursue a PhD or post-doc nor any specific academic titles. Instead I want to directly start my research without the needs of these programs.

For more details please refer to my research plans.

Thank you very much for your kind consideration, your patience in reading this letter and I remain

Yours sincerely,

Chen Minghua
Shanghai / Hangzhou , China
Supporting documents will be sent to you upon requests.

Dear Prof. Dr. Randolph,

Recently I have read some of your papers and publications and I am interested to know if there are possibilities to carry out my researches on Oncological Thermodynamics (OncoThermodynamics) or Thermodynamic Oncology (ThermOncology) at your group.

I am a master of science of engineering thermophysics from an university in China in 1989, however I didn’t go to the academia afterwards, instead I was employed by various forms of corporate, institutions, organizations etc. But I am always looking for a chance to develop my own ideas and theory.

Now I am particularly interested in biothermodynamics and biothermophysics – i.e. these parts of thermodynamics (THD) and thermophysics (THP) applicable to biological substances and biotics and particularly the thermodynamics of cancer.

However, I am determined to turn to the battle against the cancer as this is one of the most dangerous illnesses facing the human kind and this is also one of the most challenging tasks of the world.

Please attached find a little more about my research plan.

Thank you very much for your kind consideration and I remain

Yours sincerely,

Chen Minghua
Hangzhou, China
2009/11/16
P.S.:
My resume: http://chen_minghua.gofreeserve.com/today/resume.doc
Mt research idea: http://chen_minghua.gofreeserve.com/today/Research_BioThermo.doc
More information about my qualifications please go to this link: http://chen_minghua.gofreeserve.com/

Dear Prof.,

I am writing this letter to know if there are possibilities to carry out my researches on Oncological Thermodynamics (OncoThermodynamics) or CarcinoThermodynamics? or Thermodynamics of Cancers at your group.

I am a master of science of engineering thermophysics from a university in China in 1989, however I didn’t go to the academia afterwards, instead I was employed by various forms of corporate, institutions, organizations etc. But I am always looking for a chance to develop my own ideas and theory.

Now I am particularly interested particularly in the thermodynamics of cancer, as I am determined to turn to the battle against the cancer as this is one of the most dangerous illnesses facing the human kind and this is also one of the most challenging tasks of the world.

My research will focus on the thermodynamics of the carcinogenetic theory and cancer prevention, in order to identify how thermodynamics can play roles in the above stages. I am planning to apply non-equilibrium and irreversible thermodynamics to the carcinogenic cellular development. Further studies on thermal science such as thermal physics will also be promoted to apply to cancer theory and diagnostics.

Please attached find a little more about my research plan.

Thank you very much for your kind consideration and I remain

Yours sincerely,

Chen Minghua
Hangzhou, China
2010/6/8
P.S.:
My resume: http://chenminghua.6te.net/today/resume.doc
Mt research idea:
More information about my qualifications please go to this link: ?http://chenminghua.6te.net/

Dear Prof Cathy Swart,

Thank you very much for your quick reply to my inquiry. I’ve also quickly reviewed your annual report which was very informative indeed. Although my planned research is not completely compatible with those in the report, nevertheless, I　would like to say that my research can still be done within your team wthout much engagement of your institution. Let me explain a little below.

As described in my brief plan – which I will be finetuning over the next months – I will mainly concentrate on literature reading and thinking, that is, the major part of this period of research is “indoor activities” – i.e. with minimum requirements of insitu observations or experiments – therefore it also involves minimum expenses except my own costs. No labor tests are foreseen. Most expenditures will be spent on how to gain access to the large amount of information, data and materials of other researchers, clinic people and facilities. My main work will be to think thermodynamics and oncology as a whole and to systematize what others have done or are doing upto now. That is, in my mind, more important than to do my own labwork, which is not my strong point.

And because of the nature of this research, which is more theoretical and philosophical than experimental science, my research can “theoretically” be done anywhere. Therefore there shall be no difficulty to “embed” my research activities into your system as well, provided that enough funds and facilities are provided and my freedom of research can be guaranteed. On the other hand, my major facet of the research is the carcinogenesis theory and cancer prevention, of course from the thermodynamics point of view. This approach falls in your domain of research. Diagnosis is of second importance and therapy of little priority.

I don’t want to take you too much time in explanation. If this explanation can help you understand how I am going to undertake my studies, then I will be very happy.

Best wishes,

Chen Minghua

Research on Thermodynamics of Cancers
Oncological Thermodynamics (OncoThermodynamics) or Thermodynamic Oncology (ThermOncology)

I am determined to turn to the battle against the cancer as this is one of the most dangerous illnesses facing the human kind and this is also one of the most challenging tasks of the world.

My research will focus on the thermodynamics of the theory, prevention, diagnosis, treatment and rehabilitation of cancers, in order to identify how thermodynamics can play roles in the above stages. I am planning to apply non-static/non-classic thermodynamics (i.e. non-equilibrium, irreversible, definite-time thermodynamics, dissipative theory etc) at the specific domains (quantum, molecular, cellular and mesocopic thermodynamics) to the carcinogenic cellular development..

The first step of my researches is to find out thermodynamic properties, which will be unique to cancer cells and thus can be used to monitor cancer development.

by combining thermodynamics and oncology into one,
by identifying

thermodynamic, (entropy, enthalpy, Gibbs free energy, heat capacity, conductivity, opacity and others)
cytological,
biological? or
general physical

with non-classic thermodynamics (i.e.

non-equilibrium,
irreversible,
definite-time,
non-linear thermodynamics as well as,
dissipative theory etc)

at the specific domains (quantum, molecular, cellular and mesocopic levels)
of a particular type of cancer e.g. lung cancer
or a particular human organ/tissues
under specified conditions (carcinogenetic instances such as smoking etc)

During the first years I will mainly concentrate on literature reading and thinking, that is, the major part of this period of research is “indoor activities” – i.e. with minimum requirements of insitu observations or experiments – therefore it also involves minimum expenses except my own costs. No labor tests are foreseen. Most expenditures will be spent on how to gain access to the large amount of information, data and materials of other researchers, clinic people and facilities. My main work will be to think thermodynamics and oncology as a whole and to systematize and theoretize what others have done or are doing upto now. That is, in my mind, more important than to do my own labwork, which is not my strong point.

And because of the nature of this research, which is more theoretical and philosophical than experimental science, my research can “theoretically” be done anywhere, provided that enough funds and facilities are provided and my freedom of research can be guaranteed. On the other hand, my major facet of the research is the carcinogenesis theory and cancer prevention, of course from the thermodynamics point of view.

Further studies on thermal science and other physical sciences will also be promoted to apply to cancer theory, diagnostics, therapy later on.

Thermodynamics & Thermophysics of life

My aim is to establish a comprehensive Thermodynamics & Thermophysics of human health (for example illness, particularly cancer) and Thermodynamics & Thermophysics of life. The goal of this research and study is to explore possibility to explain relevant Thermodynamics & Thermophysics phenomenon involved in the entire living process and health problems? – from the daily activities to cure of specific illnesses.

I am particularly interested in biothermodynamics and biothermophysics – i.e. these parts of thermodynamics (THD) and thermophysics (THP) applicable to biological substances and biotics.

My first interests are twofold:
1) how to apply them to diagonize and treat cancers and tumors beginning with lung cancer
2) how to apply them to diagonize and treat disease in general
3) how to apply THD and THP to healthcare etc.

My health-related thermodynamic research will start with the diagnosis and treatment of cancers, particularly lung cancer, which is among the most fatal cancers in China and elsewhere. Are there thermodynamic and thermophysical ways, technologies, techniques and methods to detect, follow-up the development of and treatment of these tumors and cancers. How thermodynamics can play roles in the treatment of cancers of various types using technologies such as chemical therapy, radioactive therapy, hyper-thermal therapy and some of the other technologies.???

My aim is to find out bio-THD and bio-THP theories and techniques in the combat against tumors, cancers and other severe illnesses fatal to human life as well as the general healthcare. Among them my first step is to find out bio-THD and bio-THP theories and techniques related to the discovery and control of cancers. For example temperature may change once a cancer emerges, entropy may also be altered, and other THD and THP parameters such as Gibbs free energy flows of human bodies, parts, tissues, membranes, cells and molecular.

Then the researches will be extended to general disease discovery and treatment, where the Gibbs free energy dissipation scenario also very much attracts my attention, which is of course one of my key research areas – as healthy human body basically maintains constant temperature and pressure. Global analysis of Gibbs energy dissipation of healthy and diseased tissues and organisms will reveal some basic theories and practical medical treatment techniques. The difficulties may lie in the measuring technologies (bio-calorimetry) deep into the human body and the moral and ethic problems. Other Thermodynamic properties will also help in this area.

And last the research will be extended to healthcare and aging in general. I’ve read a paper about theromodynamics with aging recently, which also uses Gibbs energy as an indicator. It looks like most people relate health to Gibbs energy, because Gibbs energy in these cases is a direct indication of entropy change.

At the present I am only collecting information, arrange them in order, study these information and step by step I am hoping to figure out my own, systematic ideas in order to develop my particular system of theory. There are a dozens of universities in the world active in these fields but I still need more time to carefully study what they have done. Two or three international symposia have been held in Germany, Donald T. Haynie has written a book called Biological Thermodynamics but that’s all. In my opinion no systematic only sporadic researches here and there have been conducted. There are also no special journal, no special society and no special website dedicated to this area. There are even no faculties for this discipline and there are no … But biothermodynamics will certainly evolve into a big scientific area in the near future, as such it is just in the beginning and I want to involved in this area.

Research & Authoring Plan for
Oncological Thermodynamics (OncoThermodynamics)
or
Thermodynamic Oncology (ThermOncology)

General
My research will focus on thermodynamics of the

Carcinogenesis theory
prevention
diagnosis
monitoring
treatment and
rehabilitation

of cancers.

Non-equilibrium, Irregular Cellular Thermodynamics of Lung Cancers
Initially attention may be paid to apply the non-equilibrium, irregular cellular thermodynamics to lung cancers, which is among the most fatal cancers in the world, in order to identify thermodynamic and thermophysical theories, ways, technologies, techniques, methods and properties in the above stages of the cancer development and cure.

Integration of The Sporadic Thermodynamic Researches of the Worldwide Carcinogenic Academia
My greatest interest is to integrate the sporadic thermodynamic researches of the worldwide carcinogenic academia into a complete system and to understand the relationships between the cancer cell development and the thermodynamic phenomena in the normal cells. Of particular interests and importance is of course the irreversibility of the cell development and one of the most important task is to identify and quantify the critical point and criteria in determining the moment when the cell will be evolved into a malignant one. Thermodynamic models will be developed to quantify the cancerous cell development process and relevant thermodynamic properties used for diagnosis of cancer cells with calorimetry and other techniques.

Book Titled “Thermodynamics Of Cancers”
I am intended to write the book titled “Thermodynamics of Cancers” over the next years.

Current Status
At the present I am only collecting information, arrange them in order, study these information and step by step I am hoping to figure out my own, systematic ideas in order to develop my particular system of theory. There are a dozens of universities in the world active in these fields but I still need more time to carefully study what they have done.

My Research Capacity and Background
Although I am relatively new in this area, particularly I am weak in bioscience, molecular and atomic biology, medicine and medical science, but I realize this will not be a one-man job. Important is, that this man shall have a good picture of the future of this science and I think I am this one.

Also I am a person without Ph.D in science and without books and articles written upto now, but I have written tens of thousands of English reports in various subjects over the last couple of years alone, therefore I think I am able to conduct scientific researches and write scientific reports in the shortest time. I am learning several times faster than most people – while others read in pages, I in books, that is, I complete reading a book in hours not days. What others need months I need days, etc. Therefore I may catch up with those people who are in this area for decades in a couple of years. In addition I am also proficient in several European languages – English, German, French, Russian, and some Latin, Greek and Hebrew.

Research & Authoring Plan for
Oncological Thermodynamics (OncoThermodynamics)
or
Thermodynamic Oncology (ThermOncology)

General
My research will focus on thermodynamics of the

Carcinogenesis theory
prevention
diagnosis
monitoring
treatment and
rehabilitation

of cancers.

Book Titled “Thermodynamics Of Cancers”
I am intended to write the book titled “Thermodynamics of Cancers” over the next years.

Research & Authoring Plan for
Oncological Thermodynamics (OncoThermodynamics)
or
Thermodynamic Oncology (ThermOncology)

General
My research will focus on thermodynamics of the

Carcinogenesis theory and
Cancer prevention.

Non-equilibrium, Irregular Thermodynamics of Cancer Cell Development
Attention may be paid to apply the non-equilibrium, irregular cellular thermodynamics to cancer development, in order to identify thermodynamic and thermophysical theories, ways, properties and criteria in the cancer genesis and later development and pemetration.

I am planning to integrate the sporadic thermodynamic researches of the worldwide carcinogenic academia into a complete system and to understand the relationships between the cancer cell development and the thermodynamic phenomena in the normal cells. Of particular interests and importance is of course the irreversibility of the cell development and one of the most important task is to identify and quantify the critical point and criteria in determining the moment when the cell will be evolved into a malignant one. Thermodynamic models will be developed to quantify the cancerous cell development process and relevant thermodynamic properties used for diagnosis of cancer cells with calorimetry and other techniques.

In one word, just like in chemical thermodynamics, a thermodynamic property shall be identified to be used as a judgment criteria when the normal cell will be changed into a cancerous one.

Book Titled “Thermodynamics Of Cancers”
I am intended to write the book titled “Thermodynamics of Cancers” over the next years.

Research & Authoring Plan for
Oncological Thermodynamics (OncoThermodynamics)
or
Thermodynamic Oncology (ThermOncology)

General
My research will focus on thermodynamics of the

Carcinogenesis theory
prevention
diagnosis
monitoring
treatment and
rehabilitation

of cancers.

Book Titled “Thermodynamics Of Cancers”
I am intended to write the book titled “Thermodynamics of Cancers” over the next years.

Letter

Dear Prof. Dr. Randolph,

Recently I have read some of your papers and publications and I am interested to know if there are possibilities to carry out my researches on bio-thermodynamics at your group..

I am a master of science of engineering thermophysics from an university in China in 1989, I didn’t go to the academia afterwards, instead I was employed by various forms of corporate, institutions, organizations etc. But I am always looking for a chance to develop my own ideas and theory.

Although I am relatively new in this area, particularly I am weak in bioscience, molecular and atomic biology, medicine and medical science, but I realize this will not be a one-man job. Important is, that this man shall have a good picture of the future of this science and I think I am this one.

Now let me ask you Prof. Dr. Randolph, ?are your department interested in the areas above-reiterated? If yes, do you think I may contribute to the development of your research programs? If again yes, do you accept a person without Ph.D in science and without books and articles written upto now, although I have written tens of thousands of English reports in various subjects over the last couple of years? I think I am not an ordinary man, learning several times faster than most people – while others read in pages, I in books, that is, I complete reading a book in hours not days. What others need months I need days, etc. Therefore I may catch up with those people who are in this area for decades in a couple of years. I am also proficient in several European languages – English, German, French, Russian, and some Latin, Greek and Hebrew.

Thank you very much for your kind consideration and I remain

Yours sincerely,

Chen Minghua
Hangzhou, China
2009/11/16
P.S.:More information about my qualifications please go to this link: http://chen_minghua.gofreeserve.com/

List of Study Notes

ThermoDynamics
├<000Miscelleous>
│ ├<Books>
│ │ ├Journals.doc
│ │ ├Terms.doc
│ │ ├Terms热力学术语符号和单位.doc
│ │ ├ThermoLiterature.doc
│ │ ├ThermoLiterature1.doc
│ │ ├ThermoLiterature2.doc
│ │ ├ThermoLiterature_Old.doc
│ │ ├中文Chinese.doc
│ │ ├数据库.doc
│ │ ├浙图书籍.doc
│ │ └热力学书籍.doc
│ ├<Events>
│ │ ├Events.doc
│ │ └学术报告通知.doc
│ ├<News>
│ │ └News.doc
│ ├<ResearchPlans>
│ │ ├Funds_ThermoPlan.doc
│ │ ├Funds_ThermoPlan1.doc
│ │ ├Funds_ThermoPlan2.doc
│ │ ├Researches1.doc
│ │ ├Researches2.doc
│ │ ├Researches3.doc
│ │ ├Researches4.doc
│ │ ├Researches_cn.doc
│ │ ├Researches_Thermodynamics.doc
│ │ ├Researches_Thermodynamics1.doc
│ │ ├Researches_Thermodynamics_Thermophysics_Life.doc
│ │ ├Researches_热力学研究方向.doc
│ │ ├RnDPlan_Thermo.doc
│ │ ├ThermodynamicsResearch.doc
│ │ ├ThermoPlan1.doc
│ │ └ThermoPlan2.doc
│ ├<Resources>
│ │ ├ThermoResources.doc
│ │ ├ThermoResources1.doc
│ │ └ThermoResources2.doc
│ ├<Scientists>
│ │ └Scientists.doc
│ ├<Software>
│ │ ├热力学软件.doc
│ │ ├热力学软件1.doc
│ │ └热力学软件2.doc
│ ├<Thermalpower>
│ │ ├ThermalPowerSystems.doc
│ │ ├ThermalPowerSystems2.doc
│ │ └TOC_ThermoPower.doc
│ ├<ThermoStudy>
│ │ ├ThermoStudy.doc
│ │ ├ThermoStudy1.doc
│ │ ├TOC_Thermo.doc
│ │ └TOC_ThermoPower.doc
│ └<Writing>
│ └Draft.doc
├<Aerosol>
│ └Aerosol Thermodynamics.doc
├<AETHEREAL>
│ └AETHEREAL_THERMODYNAMICS.doc
├<Alloy>
│ ├合金热力学.doc
│ ├合金热力学1.doc
│ ├合金热力学2.doc
│ └合金相图及热力学.doc
├<Ancientchina>
│ └中国古代热力学.doc
├<Applied>
│ └应用热力学1.doc
├<Atmospheric>
│ ├大气热力学.doc
│ └大气热力学1.doc
├<Bible>
│ ├圣经热力学.doc
│ └圣经热力学1.doc
├<Biological>
│ ├BiologicalThermodynamics.doc
│ └生物化学热力学.doc
├<Biotherm细胞热力学>
│ ├Biotherm1.doc
│ ├BiothermAging.doc
│ ├BiothermBooks.doc
│ ├BiothermDiseases.doc
│ ├BiothermEvents.doc
│ └BiothermHealth.doc
├<Businessmanagement>
│ ├BusinessManagementThermodynamics.doc
│ └工商管理热力学.doc
├<CancerThermo>
│ ├CancerHealthThermoNewResearch.doc
│ ├CancerHealthThermoResearch.ppt
│ ├CancerThermoDiagnosis.doc
│ ├CancerThermoDrugs.doc
│ ├CancerThermoPrevent_1.doc
│ ├CancerThermoPrevent_2.doc
│ ├CancerThermoPrevent_3.doc
│ ├CancerThermoPrevent_4.doc
│ ├CancerThermoRehabil.doc
│ ├CancerThermoSpecial.doc
│ ├CancerThermoTheory.doc
│ ├CancerThermoTherapy.doc
│ ├<Funds_Cancer>
│ │ ├Funds_Cancer.doc
│ │ └Funds_Cancer_2.doc
│ ├Research_CancerThermo.doc
│ ├Research_CancerThermo.ppt
│ ├Research_CancerThermo4.doc
│ └Theory.doc
├<Cell>
│ └cells.doc
├<Cement>
│ └Cement-Thermodynamics.doc
├<Chemical>
│ └化工热力学.doc
├<Chemicalequilibrium>
│ └化学平衡热力学.doc
├<Chemistry>
│ ├化学反应热力学.doc
│ ├化学热力学 (2).doc
│ ├化学热力学.doc
│ ├无机化学热力学 (2).doc
│ ├无机化学热力学.doc
│ ├无机化学热力学大纲.doc
│ └电化学热力学.doc
├<Climate>
│ └气候天气热力学.doc
├<Combustion燃烧热力学>
│ ├Combustion Thermodynamics.doc
│ └燃烧热力学.doc
├<Complexsystems>
│ └非常态及复杂体系化学热力学.doc
├<Computation计算热力学>
│ ├Computational Chemical Thermodynamics.doc
│ └计算热力学.doc
├<Continuum>
│ └连续热力学.doc
├<Cooperation>
│ └The thermodynamics of cooperationXXX.doc
├<Corrosion>
│ └腐蚀热力学.doc
├<Cryogenic>
│ ├低温热力学.doc
│ └低温热力学2.doc
├<Crystallization>
│ ├结晶岩热力学.doc
│ └结晶热力学.doc
├<Dissipative>
│ ├耗散结构理论.doc
│ └耗散结构理论1.doc
├<Earth>
│ ├EarthThermodynamics.doc
│ └地球热力学.doc
├<Ecological>
│ └生态热力学.doc
├<Energy>
│ └能量能源系统热力学.doc
├<Engine>
│ └发动机系统热力学.doc
├<Engineering>
│ ├工程热力学.doc
│ └工程热力学1.doc
├<Equibriluim>
│ └平衡态热力学.doc
├<Finance>
│ └金融热力学.doc
├<Finitetime>
│ ├有限时间热力学.doc
│ └有限时间热力学1.doc
├<Fluid>
│ ├流体热力学.doc
│ └超临界流体化学热力学.doc
├<Friction>
│ └摩擦体系热力学.doc
├<Fuel>
│ └Fuel Thermodynamics.doc
├<FuelCell>
│ └FuelCellThermodynamics.doc
├<Gravitational>
│ └GravitationalThermodynamics.doc
├<Greenhouse>
│ └GreenhouseThermodynamics.doc
├<Hierarchical>
│ └HierarchicalThermodynamics.doc
├<History>
│ └历史热力学.doc
├<Information>
│ └信息热力学.doc
├<Irreversible>
│ ├不可逆热力学.doc
│ └不可逆热力学1.doc
├<IT热力学>
│ └IT热力学.doc
├<Kingdom>
│ └王国热力学.doc
├<Life>
│ ├ThermodynamicsLifeEvolution.doc
│ └生命與熱力學.doc
├<Linear>
│ ├线性热力学.doc
│ └线性热力学2.doc
├<Literature>
│ ├文学热力学.doc
│ └文学热力学2.doc
├<Marine>
│ └海洋工程热力学.doc
├<Material>
│ ├MaterialThermodynamics.doc
│ ├含碳耐火材料热力学.doc
│ ├材料热力学.doc
│ ├材料热力学2.doc
│ ├材料的固态热力学.doc
│ ├硅酸盐热力学.doc
│ └耐火氧化物热力学.doc
├<Medecine>
│ └医药热力学.doc
├<Mesoscopic>
│ └MESOSCOPIC THERMODYNAMICS.doc
├<Metallurgical>
│ ├冶金热力学.doc
│ ├冶金热力学2.doc
│ └冶金热化学.doc
├<Metals>
│ ├金属材料热力学.doc
│ └金属热力学.doc
├<Microscopic>
│ └MicroThermoResearch.doc
├<Molecular>
│ └分子热力学.doc
├<Multicomponent>
│ ├Thermodynamics Three-ComponentSystems.doc
│ ├多组分体系热力学2.doc
│ ├多组分体系热力学3.doc
│ └多组分系统热力学.doc
├<NanoTherm>
│ └NanoThermPaper1.doc
├<Negativeenergyspectrum>
│ └负能谱热力学.doc
├<Network>
│ └网络热力学.doc
├<Newconcept>
│ ├新概念热学.doc
│ └新概念热学1.doc
├<NewEnergy新能源热力学>
│ └新能源热力学.doc
├<Nonequilibrium不平衡>
│ ├非平衡态热力学.doc
│ └非平衡态热力学1.doc
├<Nonlinear>
│ └非线性热力学.doc
├<Nuclear>
│ ├Nuclear_Physics_and_Thermodynamics.doc
│ └核热力学.doc
├<Organisms>
│ └Thermodynamics of Organisms.doc
├<Packaging>
│ └Thermodynamics of packaging.doc
├<Phantom>
│ └PhantomThermodynamics.doc
├<Pharma>
│ └药物热力学.doc
├<Physicalchemistry>
│ └物理化学.doc
├<Pnaumatic>
│ └气动热力学.doc
├<Politics>
│ └政治热力学.doc
├<Polymer>
│ └聚合热力学.doc
├<Porousmedia>
│ └多空介质热力学.doc
├<Power>
│ └动力热工学.doc
├<Power电力系统热力学>
│ ├电力系统热力学.doc
│ └电力系统热力学2.doc
├<Quantum>
│ └量子热力学.doc
├<Religion>
│ └宗教热力学.doc
├<Seawater>
│ └海水热力学.doc
├<Selforganization>
│ └自组织现象热力学1.doc
├<Sex>
│ └SexThermodynamics.doc
├<SmallSystems小系统>
│ └Researches_SmallSystemThermo.doc
├<Social>
│ ├社会热力学.doc
│ └社会热力学1.doc
├<SolarComsmoTherm>
│ ├CoronaHeating1.doc
│ ├CoronaHeating2.doc
│ ├Researches_SolarCosmicThermo.doc
│ ├Researches_SolarCosmicThermo1.doc
│ ├Researches_SolarThermo.doc
│ ├Researches_SolarThermo1.doc
│ ├Researches_SolarThermo2.doc
│ ├SolarCosmicThermoResearch.doc
│ ├SolarWind.doc
│ ├天体热力学.doc
│ ├天体热力学2.doc
│ ├太阳热力学.doc
│ ├太阳热力学1.doc
│ ├宇宙热力学.doc
│ ├宇宙物理.doc
│ ├空间热力学.doc
│ └黑洞热力学.doc
├<SolarRad太阳辐射热力学>
│ ├Thermodynamics太阳辐射热力学.doc
│ └太阳辐射热力学.doc
├<SolarThermo>
│ ├ThermodynamicsSolarPowerSystems.doc
│ └太阳能利用中的热力学.doc
├<Solids>
│ └THERMODYNAMICS OF SOLIDS.doc
├<Solution>
│ ├溶液热力学.doc
│ └电解质溶液热力学.doc
├<Statistical统计热力学>
│ ├热力学统计物理.doc
│ ├热力学统计物理1.doc
│ ├统计热力学.doc
│ └统计热力学1.doc
├<Surface>
│ └表面与界面现象热力学.doc
├<Theology>
│ └神学热力学.doc
├<Thermalchemistry>
│ └热化学.doc
├<Thermoeconomics>
│ ├EconomicsThermodynamics.doc
│ ├火用与火无经济学.doc
│ ├热经济学.doc
│ └经济热力学.doc
├<ThermoOthers>
│ ├Theory.doc
│ ├ThermoOthers.doc
│ ├ThermoOthers1.doc
│ ├热分析动力学.doc
│ ├热力学一般.doc
│ ├热动力学.doc
│ ├热工学.doc
│ ├熵.doc
│ ├第五定律.doc
│ └通用热力学.doc
├<Thermophysics>
│ ├ThermalPhysics热物理Lists.doc
│ └热物理.doc
├<Transport>
│ └交通运输系统热力学.doc
├<UniverseThermo>
│ └About_UniverseThermo.doc
├<Variablemass>
│ └变质量热力学.doc
└<Wealthy>
└富人热力学.doc

Thermal Physics & Thermodynamics (2008-2010)

Non-equilibrium Thermodynamics
Nanothermodynamics,
Thermoeconomics, (exergoeconomic) and exergetic analysis
Mesoscopic Thermodynamics (Thermodynamics Of Small Structures),
Cosmic Thermodynamics Or Thermodynamics Of The Universe,
Thermodynamics Of Cancers,
Thermodynamics & Thermophysics Of Life, and Biology
Solar Thermodynamics & Thermophysics (corona heating thermodynamics),
Thermodynamics and Thermophysics In Solar Radiation And Measurement,
Thermodynamics Of Solar Energy Systems, Solar Technology, Industry And Applications
SO2 pollution control (1989) - which was my research subject while pursuing master's degree and which was also my possible research subject when trying to do PhD at Zhejiang University in 2011 in Hangzhou.

Here below are shown some records of the studies over the past years:

<DIR> Aviation航空热力学

<DIR> Biotherm细胞热力学

biotherm.doc
Biotherm1.doc
BiothermAging.doc
BiothermBooks.doc
BiothermDiseases.doc
BiothermEvents.doc
BiothermHealth.doc
BiothermTerms.doc
cellsXXX.doc
Research_BioThermo.doc
Research_BioThermo1.doc
Thermodynamics of Organisms.doc

<DIR> Books

Journals.doc
Terms.doc
ThermoLiterature.doc
ThermoLiterature.pdf
ThermoLiterature1.doc
ThermoLiterature33.doc
ThermoLiterature_0.doc
ThermoLiterature_Old.doc
中文Chinese.doc
数据库zzz.doc
浙图书籍.doc
热力学书籍.doc
热力学术语符号和单位.doc

<DIR> CancerThermo

About_CancerThermo.doc
About_CancerThermo1.doc
About_CancerThermo2.doc
About_CancerThermo5.doc
CancerHealthThermoAbout.doc
CancerHealthThermoNewResearch.doc
CancerHealthThermoResearch.ppt
CancerThermoDiagnosis.doc
CancerThermoDrugsZZZ.doc
CancerThermoPrevent_1.doc
CancerThermoPrevent_2.doc
CancerThermoPrevent_3.doc
CancerThermoPrevent_4.doc
CancerThermoRehabil.doc
CancerThermoSpecial.doc
CancerThermoTheory.doc
CancerThermoTherapy.doc
Intro_Cancerzzz.doc
Research_CancerPrevent.doc
Research_CancerThermo.doc
Research_CancerThermo.pdf
Research_CancerThermo.ppt
Research_CancerThermo1.doc
Research_CancerThermo4.doc
Research_CancerThermo5.doc

<DIR> Combustion燃烧热力学

Combustion Thermodynamics.doc
Combustion Thermodynamics1.doc
燃烧热力学.doc
燃烧热力学2.doc

<DIR> Computation计算热力学

Computational Chemical Thermodynamics.doc
计算热力学.doc

<DIR> Events

Events.doc
学术报告通知.doc

<DIR> Health健康疾病

<DIR> Intro

ThermoOtherszzz.doc
ThermoSwap.doc
ThermoTech.doc
ThermoTech.pdf
Thermo_Swap.doc
TOC_Thermo.doc
TOC_ThermoPower.doc

<DIR> IT热力学

IT热力学.doc

<DIR> NanoTherm

About_Thermo.doc
Guidelines.doc
NanoThermoResearch.doc
NanoThermPaper1.doc
NanoThermPaper2.doc

<DIR> NewEnergy新能源热力学

新能源热力学.doc

<DIR> Nonequilibrium不平衡不可逆非线性

不可逆热力学.doc
不可逆热力学XXX.doc
有限时间热力学.doc
有限时间热力学XXX.doc
耗散结构理论.doc
耗散结构理论XXX.doc
自组织现象热力学.doc
自组织现象热力学XXX.doc
非常态及复杂体系化学热力学.doc
非平衡态热力学.doc
非平衡态热力学XXX.doc
非线性热力学.doc

<DIR> Power电力系统热力学

Electric Field Tutorial.doc
电力系统热力学.doc
电力系统热力学2.doc

<DIR> ResearchPlans

About.doc
About1.doc
About2.doc
About3.doc
About4.doc
About5.doc
About6.doc
About7.doc
About_CN.doc
About_CN1.doc
About_CN2.doc
About_Thermo.doc
About_Thermodynamics.doc
Generals.doc
Researches.doc
Researches0.doc
Researches1.doc
Researches2.doc
Researches3.doc
Researches5.doc
Researches6.doc
Researches_cn.doc
Researches_Thermodynamics.doc
Researches_Thermodynamics1.doc
Researches_Thermodynamics_Thermophysics_Life.doc
Researches_热力学研究方向.doc
RnDPlan_Thermo.doc
SO02.doc
SO2.pdf
SO2v002.doc
ThermodynamicsCNAbout.doc
ThermodynamicsResearch.doc
ThermoPlan1.doc
ThermoPlan2.doc
为热力学研究与著述工作寻求帮助与合适岗位.doc
为热力学研究与著述工作寻求帮助与合适岗位1.doc
为热力学研究与著述工作寻求帮助与合适岗位2.doc

<DIR> Resources

Resources3.doc
ThermoResources.doc
ThermoResources2.doc

<DIR> Services

Intro_Thermo.doc
Services.doc
Services1.doc
Services2.doc
Services_CN.doc
Services_CN1.doc
Services_CN2.doc
ThermodynamicsToday.doc
ThermodynamicsToday1.doc
ThermodynamicsToday3.doc
现代热力为您服务.doc
现代热力为您服务1.doc
现代热力为您服务2.doc

<DIR> SmallSystems小系统

About_MicroscopicThermo.doc
MESOSCOPIC THERMODYNAMICS.doc
MicroThermoAbout.doc
MicroThermoResearch.doc
Researches_SmallSystemThermo.doc
小系统热力学XXX.doc
微观热力学.doc
微观组织热力学.doc

<DIR> Software

热力学软件.doc
热力学软件2.doc

<DIR> SolarComsmoTherm

About_SolarCosmicThermo.doc
Researches4.doc
Researches_SolarCosmicThermo.doc
Researches_SolarCosmicThermo1.doc
SolarCosmicThermoAbout.doc
SolarCosmicThermoResearch.doc
天体热力学.doc
太阳热力学.doc
太阳热力学1.doc
宇宙热力学.doc
宇宙物理.doc
黑洞热力学.doc

<DIR> SolarRad太阳辐射热力学

Thermodynamics5.doc
太阳辐射测量热力学.doc
太阳辐射热力学.doc
太阳辐射热力学2.doc
辐射热力学.docThermodynamics5.doc
太阳辐射测量热力学.doc
太阳辐射热力学.doc
太阳辐射热力学2.doc
辐射热力学.doc

<DIR> SolarThermo

About_SolarThermo.doc
About_SolarThermo1.doc
About_SolarThermo2.doc
About_SolarThermo3.doc
Researches_SolarThermo.doc
Researches_SolarThermo1.doc
Researches_SolarThermo2.doc
ThermodynamicsSolarPowerSystems.doc
太阳能利用中的热力学.doc
太阳能利用中的热力学2.doc

<DIR> Statistical统计热力学

动态统计信息理论.doc
动态统计信息理论1.doc
热力学统计物理.doc
热力学统计物理1.doc
物理化学.doc
统计热力学.doc
统计热力学1.doc
统计热力学习题1.doc
非平衡态统计物理XXX.doc

<DIR> Thermalpowerxxx

PowerPlant.doc
ThermalPowerSystems.doc
ThermalPowerSystems2.doc
热能动力机械.doc

<DIR> Thermodynamics

MaterThesisAbstractChenMinghua.doc
专题x.doc
关于“熵气象学”的研究性学习学习报告.doc
均匀物质的热力学性质.doc
大气的热力学总熵.doc
大气的热力学总熵4.doc
容积式压缩机热力学性能实验指导书.doc
平衡态与态参量x.doc
炯焖火积x.doc
热力学1.doc
热力学一般.doc
热力学一般x.doc
热力学函数与关系式x.doc
热力学发展史x.doc
热力学定律x.doc
热力学微观过程.doc
热力学第二定律和热寂论.doc
热力学简介x.doc
热力学软件.doc
热力学过程x.doc
热动力学.doc
热动力学XXX.doc
热学XXX.doc
热工学XXX.doc
热量和内能x.doc
热静力学.doc
热静力学XXX.doc
焓x.doc
熱力學2.doc
熵.doc
熵0x.doc
熵1x.doc
熵2x.doc
熵与激光.doc
理想气体热力过程及气体压缩.doc
生态状况判断的理论.doc
相与化学平衡x.doc
社会发展和熵.doc
第4章化学热力学基础.doc
第一定律x.doc
第三定律x.doc
第三章热力学第二定律.doc
第九章统计热力学初步.doc
第二定律x.doc
第五定律x.doc
第五章气体动理学理论.doc
第四定律x.doc
第零定律x.doc
经典热力学.doc
论教学过程中的熵.doc
通用热力学.doc

<DIR> Thermoeconomics

EconomicsThermodynamics.doc
Thermoeconomic.doc
多组分体系热力学2.doc
多组分体系热力学3.doc
火用与火无经济学.doc
热经济学.doc
经济热力学.doc

<DIR> ThermoOthers

Aerosol Thermodynamics.doc
AETHEREAL_THERMODYNAMICS.doc
AppliedThermodynamics.doc
BiologicalThermodynamics.doc
BusinessManagementThermodynamics.doc
Cement-Thermodynamics.doc
Drugs.doc
DYNAMIC APPROACH TO THERMODYNAMIC SIMULATION OF CHEMICAL SYSTEMS.doc
EarthThermodynamics.doc
EcologicalThermodynamicsXXX.pps
Fuel Thermodynamics.doc
FuelCellThermodynamics.doc
GravitationalThermodynamics.doc
GreenhouseThermodynamics.doc
HierarchicalThermodynamics.doc
MaterialThermodynamics.doc
Nuclear_Physics_and_Thermodynamics.doc
PhantomThermodynamicsX.doc
SexThermodynamicsXXX.doc
SpacePropulsionThermodynamic.doc
The thermodynamics of cooperationXXX.doc
Theory.doc
Thermal.doc
Thermodynamics of packaging.doc
THERMODYNAMICS OF SOLIDS.doc
Thermodynamics Three-ComponentSystems.doc
ThermodynamicsLifeEvolution.doc
ThermodynamicsLiving生活热力学XXX.doc
ThermoOthers.doc
Thermo_Others.doc
ThunderstormThermodynamics.doc
中国古代热力学XXX.doc
交通运输系统热力学.doc
低温热力学.doc
低温热力学1.doc
信息热力学XXX.doc
冶金热力学.doc
冶金热力学1.doc
冶金热化学.doc
分子热力学.doc
分子热力学1.doc
动力热工学.doc
化学反应热力学.doc
化学平衡热力学.doc
化学热力学.doc
化学热力学1.doc
化工热力学.doc
化工热力学3.doc
医药热力学XXX.doc
历史热力学XXX.doc
发动机系统热力学.doc
变质量热力学.doc
合金热力学.doc
合金热力学1.doc
合金热力学2.doc
合金相图及热力学.doc
含碳耐火材料热力学.doc
土壤水分热力学.doc
圣经热力学.doc
圣经热力学XXX.doc
地球热力学.doc
多空介质热力学.doc
多组分系统热力学.doc
大气热力学.doc
大气热力学1.doc
天体热力学.doc
宗教热力学XXX.doc
实验热力学.doc
富人热力学XXX.doc
工商管理热力学XXX.doc
工程热力学.doc
工程热力学1.doc
平衡态热力学XXX.doc
应用热力学.doc
建筑热工学.doc
技术热力学.doc
摩擦体系热力学.doc
政治热力学XXX.doc
文学热力学.doc
文学热力学XXX.doc
新概念热学.doc
新概念热学XXX.doc
无机化学热力学.doc
无机化学热力学1.doc
无机化学热力学大纲.doc
材料热力学.doc
材料热力学1.doc
材料的固态热力学.doc
核热力学.doc
气候天气热力学.doc
气动热力学.doc
气动热力学3.doc
流体热力学.doc
海水热力学.doc
海水热力学1.doc
海洋工程热力学.doc
溶液热力学.doc
热化学.doc
爱情热力学XXX.doc
王国热力学XXX.doc
环境热力学XXX.doc
理性热力学XXX.doc
生命與熱力學.doc
生态热力学XXX.doc
生物化学热力学.doc
生物质热化学.doc
电化学热力学.doc
电解质溶液热力学.doc
硅酸盐热力学.doc
社会热力学.doc
社会热力学XXX.doc
神学热力学XXX.doc
空间热力学.doc
系統工程報告.doc
线性热力学.doc
线性热力学1.doc
结晶岩热力学.doc
结晶热力学.doc
网络热力学.doc
耐火氧化物热力学.doc
聚合热力学.doc
能量能源系统热力学.doc
能量能源系统热力学ZZZ.doc
腐蚀热力学.doc
艺术热力学XXX.doc
药物热力学XXX.doc
表面与界面现象热力学.doc
负能谱热力学.doc
超临界流体化学热力学.doc
连续热力学.doc
连续热力学1.doc
量子热力学.doc
量子热力学1.doc
金属材料热力学.doc
金属热力学.doc
金融热力学XXX.doc
黑洞热力学.doc

<DIR> Thermophysics

ThermalPhysics热物理ListsXXX.doc
热物理.doc
热物理XXX.doc

<DIR> ThermoStudy

ThermoStudy.doc
ThermoStudy1.doc

<DIR> UniverseThermo

About_UniverseThermo.doc
About_UniverseThermo1.doc
About_UniverseThermo2.doc

<DIR> Writing

Draft.doc

Here below are shown a fraction (1/5 to 1/50 depending on which branch is related) of papers and books survived, that I have perused before.

<DIR> cn

准静态过程内能热量和功.ppt
制冷与低温的热力学基础.ppt
化学平衡热力学原理.ppt
化学热力学初步.pdf
化学热力学初步3.pdf
化学热力学和动力学.pdf
化工热力学-第一章.ppt
化工热力学-第二章.ppt
化工热力学.ppt
化工热力学1.ppt
原子物理学.pdf
均匀物质的热力学性质 .ppt
工程硕士《高等工程热力学》课程设置.pdf
有效理论中热力学自洽性的讨论.ppt
极端黑洞热力学研究的现状和未来(2).pdf
气体动理论A.ppt
汽车设计制造中的若干重要力学问题.pdf
热力学.ppt
热力学基本定律与函数（1.2）.ppt
热力学基础.ppt
热力学定律和热力学基本方程.pdf
热力学的基本规律 .ppt
热力学的基本规律 1.ppt
热力学第一定律.ppt
热力学第一定律1.ppt
热力学第一定律66.ppt
热力学第二定律.pdf
热力学第二定律.ppt
热力学第二定律卡诺原理.ppt
热力学系统平衡态理想气体的状态方程.ppt
热学与熵.ppt
热学电子教案(2).ppt
热学电子教案.ppt
热寂与进化.ppt
熱力學原理.ppt
熱力學原理1.ppt
熱力學第二、三定律2.ppt
熵与宇宙耗散.pdf
熵变计算.ppt
燃烧学第一章—导论.ppt
燃烧热力学.pdf
燃烧焓的测定.pdf
物理化学网络课件_绪论.ppt
物理学上册.ppt
生态状况判断.pdf
生活中的熱力學.pdf
盐湖卤水体系的热力学模型.pdf
科学与人文.ppt
第1章热力学的基本规律.ppt
第9章　统计热力学初步.ppt
第七章.ppt
第三篇热学-8气体动理论基础.ppt
第二章.ppt
第六章.ppt
第四章化学热力学基础.ppt
统计热力学.PPT
统计热力学初步.ppt
统计热力学基础（1-2）.ppt
聚合热力学和聚合-解聚平衡.PPT
胶团热力学与动力学.ppt
表面有序.ppt

<DIR> de

Backhaus entropieexergie p14.pdf
BrückerZZZ Str?mungsmechanik II_Skript_2007 p178.pdf
gasser exergie analyse p8.pdf
Gasser WEXA Exergie-Analyse zur Effizienzsteigerung von LuftWasser-W?rmepumpen p141.pdf
Kassner ZZZ Thermodynamik, kinetische Theorie und Quantenstatistik p250.pdf
Peters Thermodynamik_Kap1_Teil1von1_1p25.pdf
Thermodynamik_des_Verbrennungsmotors_Block10_28062012.pdf
Thermodynamik_des_Verbrennungsmotors_Block8_14062012.pdf

<DIR> en

Cooperman The Second Law of Thermodynamics in a Timeless Universe p98

HoffmanZZZ COMPUTATIONAL THERMODYNAMICS6 p74.pdf

HoffmanZZZ Computational Thermodynamics p231.pdf

Huckauf Ecosystem Thermodynamics p49

LiebTHE PHYSICS AND MATHEMATICS OF THE SECOND LAW OF THERMODYNAMICS p102

Patzek Thermodynamics of Energy Production p91

Potter Thermodynamics for Engineers Chinese p300.pdf

<DIR> fr

<DIR> gk

antonis thermodynamic p48.pdf
Kouzoudis_Thermo-1 ΘΕΡΜΟΔΥΝΑΜΙΚΗ ΓΙΑ ΜΗΧΑΝΙΚΟΥΣ p105.pdf
statistiki thermodynamiki p66.pdf
thermodinamiki p146.pdf
Αριστοτ?λη?_ΚΕΦAΛΑΙΟ TΕΤΑΡΤΟ p25.pdf

<DIR> ru

Acupov thermodynamics yesterday today tomorrow p7.pdf
lec_38.Termodinamika p10.pdf
makarova ТЕРМОДИНАМИКА В СОВРЕМЕННОМ ОБЩЕСТВЕ p12.pdf
Shamin Conform2008ru p142.pdf
Vaciliebutsch termodinamika_konspect p75.pdf
Yakovlev molecular phyiscs and thermodynamics p57.pdf
БИОЛОГИЧЕСКАЯ ТЕРМОДИНАМИКАkt_04bi p11.pdf

Thermal Physics & Thermodynamics (2008-2010)

Non-equilibrium Thermodynamics
Nanothermodynamics,
Thermoeconomics, (exergoeconomic) and exergetic analysis
Mesoscopic Thermodynamics (Thermodynamics Of Small Structures),
Cosmic Thermodynamics Or Thermodynamics Of The Universe,
Thermodynamics Of Cancers,
Thermodynamics & Thermophysics Of Life, and Biology
Solar Thermodynamics & Thermophysics (corona heating thermodynamics),
Thermodynamics and Thermophysics In Solar Radiation And Measurement,
Thermodynamics Of Solar Energy Systems, Solar Technology, Industry And Applications
SO2 pollution control (1989) - which was my research subject while pursuing master's degree and which was also my possible research subject when trying to do PhD at Zhejiang University in 2011 in Hangzhou.

Here below are shown some records of the studies over the past years:

ThermoStudy.pdf - study schedules of thermodynamics and related sciences ()
ThermalPowerSystems.pdf - thermal power systems ()
ThermodynamicsCNAbout.pdf - about my thermodynamics studies and research in Chinese ()
ThermodynamicsResearch.pdf - about my thermodynamics studies and research plan in details ()
ThermoOthers.pdf - about other areas of thermodynamics studies and research ()
ThermoLiterature.pdf ()
ThermoResources.pdf ()
SolarCosmicThermoAbout.pdf - about my solar and cosmological thermodynamics studies and research ()
SolarCosmicThermoResearch.pdf - about my solar and cosmological thermodynamics studies and research plans in details ()
CancerHealthThermoAbout.pdf - about research intention of thermodynamics of health in particular oncology ()
CancerHealthThermoResearch.pdf - about research intention of thermodynamics of health in particular oncology in some details ()
CancerHealthThermoNewResearch.pdf - about research intention of thermodynamics of health in particular oncology in detailed, updated recently ()
CancerFunds.pdf - about research funds of thermodynamics of health in particular oncology with which I have some contacts ()
MicroThermoAbout.pdf - about my microscopic in particular nano thermodynamic reseach ()
MicroThermoResearch.pdf - about my microscopic in particular nano thermodynamic reseach in details ()
Tongji_MaterThesisAbstract_SO2.pdf - some info about my mster thesis on SO2 pollution control ()
ZJUniv_PhD_Plan_003.pdf - my PhD studies plan for Zhejiang University ()
ZJUniv_PhD_Thesis_SO2v002.pdf - my PhD thesis plan on SO2 pollution control for Zhejiang University ()
ZJUniv_Research_Plan_v010.pdf - my research plan for Zhejiang University ()
ZJUniv_Complain.pdf - my complaint against the Zhejiang University's maltreatment of my PhD applications ()