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Statistics and meaning of name Ghasemi

Usage: 5% firstname, 95% surname.

Ghasemi first name was found 50 times in 7 different countries.

Surname Ghasemi is used at least 903 times in at least 24 countries.

Name written with Chinese letters: 卡西米 (pinyin: kǎ xī mǐ)

Mohammad Ghasemi (6)

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Name contains 7 letters - 42.86% vowels and 57.14% consonants.

Misspells: Ghosemi Ghassemi Ghasemy Ghasemj Ghaseme Ghasemia Gahsemi Ghaseim Ghasmei

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Famous people: Komeil Ghasemi, Arman Ghasemi, Rostam Ghasemi, Abbas Ghasemi

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Ghasemi - definition and meaning

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Reuters Gen. Ghasemi, shown in 2009, is subject to U.S. and EU sanctions.

Gen. Ghasemi's nomination comes as international pressure has started to hit Iran's ability to sell crude.

Gen. Rostam Ghasemi heads Khatam al-Anbiya, the most powerful economic wing of the Revolutionary Guards, with diverse interests in construction, oil and gas, telecommunications and other sectors.

Gen. Ghasemi, if confirmed, would preside over OPEC at a difficult time for the group, which ended a June meeting acrimoniously after Iran successfully thwarted a push by its regional foe Saudi Arabia for the group to boost output.

Gen. Ghasemi is subject to sanctions by the U.S. and European Union for his role in helping Iran's nuclear program.

"After my appointment is approved I will be using Khatam al-Anbiya for oil contracts along with other domestic contractors," Gen. Ghasemi told the semiofficial Fars News Agency on Wednesday.

Seifi Ghasemi, the chairman and chief executive officer of Rockwood Holdings, which produces the lithium chemicals needed for advanced batteries as well as other chemicals, said in an interview Tuesday that some people underestimate the potential attraction of electric vehicles.

The appointment of Ghasemi as Iran's oil minister automatically makes him the head of Opec which has a crucial role in determining oil prices.

As its second-largest crude oil exporter, Iran took the presidency of Opec after 36 years last October and Ghasemi's position will give the revolutionary guards a unique opportunity to influence an international organisation.

Rostam Ghasemi, head of the Khatam al-Anbia military and industrial base, was one of four ministersnominated by president Mahmoud Ahmadinejad to join his cabinet last week and approved by Iran's conservative-dominated parliament.

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Rostam Ghasemi, Military Wiki, FANDOM powered by Wikia

Rostam Ghasemi

3 August 2011 – 15 August 2013

Rostam Ghasemi (Persian: رستم قاسمی, born 5 May 1964) is an Iranian military officer and politician who was minister of petroleum from 3 August 2011 to 15 August 2013. [1]

Early life and education Edit

Ghasemi was born on 5 May 1964 in Sargah village, Shiraz, Fars Province. [2] [3] His father was a businessman and politician, and served as the governor of the Fars Province from 1980 to 1988. He graduated from Sharif University of Technology, studying in civil engineering. [4]

Career Edit

Ghasemi joined the Army of the Guardians of the Islamic Revolution (IRGC) in Kharg Island in 1979. [2] He participated in the Iran-Iraq War. [5] After the war, he joined the Khatam Anbia troops in Bushehr, the Guards' engineering and construction company. [6] In 1996, he was named head of the IRGC navy's Nouh base. [2] Ghasemi became deputy commander of the troops in 2001.

He was elected as a member of the Parliament from his country of birth, Iran, in the legislative election of 1988. He was reelected in 1992 and 1996. He was the chair of the IRGC-affiliated Khatam-ol Anbiya Construction Headquarters from 2007 to 2011. [5] He retired from the military in August 2011.

On 26 July 2011, he was nominated as oil minister by Mahmoud Ahmadinejad to succeed Masoud Mir Kazemi. [7] He was approved by the parliament on 3 August 2011, being the fourth oil minister in the Ahmedinejad government. [8] He received 216 for votes of the 246 Majlis members. [2] He was the president of the OPEC for 2011. [9] Ghasemi's tenure as oil minister ended on 15 August 2013 and he was replaced by Bijan Namdar Zanganeh in the post. [5] Shortly after leaving office Ghasemi was appointed advisor to Defense Minister Hossein Dehghan on 22 August. [5] [10]

Sanctions Edit

Ghasemi was included in the EU sanction list. [11]

Ghasemi, free PDF download

Ghasemi Graphic design: Sam Keshmiri

Amirali Ghasemi Media Artist / Curator / Graphic Designer was born in Tehran, 1980. He graduated in 2004 with a BA in graphic design from Central Tehran Azad University, with research and emphasis on digital art history.

Influence of environmental factors on antioxidant activity .

Kamran Ghasemi 1, Yousef Ghasemi 1, Abdollah Ehteshamnia 1, Seyed Mohammad Nabavi 2, Seyed Fazel Nabavi 2, Mohammad Ali Ebrahimzadeh 2 * and Fereshteh Pourmorad

Title: FHWA Long-term Bridge Performance Program

Cover page Title: FHWA Long-term Bridge Performance Program Authors: Hamid Ghasemi (Contact person) Senior Research Structural Engineer FHWA 6300 Georgetown Pike McLean, VA 22101 Phone: (202)493-3042 Fax: (202)493-3442 E-Mail: PAPER DEADLINE: July 31, 2008 .

Quantum dot: magic nanoparticle for imaging, detection and .

Quantum dot: magic nanoparticle for imaging, detection and targeting Younes Ghasemi, Payam Peymani, Saba Afifi Department of Pharmaceutical Biotechnology, Faculty of Pharmacy and Pharmaceutical research Center, Shiraz University of Medical Science, Shiraz, Iran Abstract.

Intranuclear Localization of EGFP-mouse PPAR

97 Intranuclear Localization of EGFP-mouse PPAR γ 1 in Bovine Fibroblast Cells Sorayya Ghasemi, B.Sc. 1, Kamran Ghaedi, Ph.D. 1, 2 *, Mohammad Hossein Nasr Esfahani, Ph.D. 2 *, Somayye Tanhaei, M.Sc. 2, Farzaneh Rabeei, B.Sc. 2, Khadijeh Karbalaii, M.Sc. 2, Hossein Baharvand, Ph.D. 3 .


Seifollah Ghasemi is the president and C.E.O. of Defendant Rockwood Holdings, the parent corporation. (Compl. ¶ 18.) B. Development and Certification of Micronized Wood Preservatives and Approval by ICC-ES

Ali Niazi , Ateesa Yazdanipour , Jahanbakhsh Ghasemi

Spectrochimica Acta Part A 65 (2006) 73–78 Spectrophotometric and thermodynamic study on the dimerization equilibrium of ionic dyes in water by chemometrics method

Research Original Topic: Pharmacology, Ethno-

Ghasemi Pirbalouti et al., Journal of Herbal Drugs, No 1. 2010 Journal of Herbal Drugs journal homepage: The effect of some of the Iranian medicinal plants on Brucella Abortus on Invitro and In- vivo Abdollah Ghasemi Pirbalouti 1 , Mohammad Reza Ghasemi 2 , Hasan Momtaz 3 .

The Iranian EFL Journal March 2010 Volume 6 Issue 1

- Ghasemi: "I use flashcards when I teach vocabularies and sounds." - Alizade: "Cooperation is a basic principle for me. I interact with my students for better learning" - Heidari: "It depends on the level of the students.

Farhang Ghassemi - Situation of Human Rights in Iran - EN

With the reopening of the universities, AHMADINEJAD's government has intensified the expulsions and suspension of students and professors and imprisoned several hundreds of students and dozens of university professors.

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Hadi GHASEMI, et al: Solar Steam Generator - aricles - US Patent Appln


Solar Steam Generator

MIT News Office

A new material structure developed at MIT generates steam by soaking up the sun.

The structure — a layer of graphite flakes and an underlying carbon foam — is a porous, insulating material structure that floats on water. When sunlight hits the structure’s surface, it creates a hotspot in the graphite, drawing water up through the material’s pores, where it evaporates as steam. The brighter the light, the more steam is generated.

Today, solar-powered steam generation involves vast fields of mirrors or lenses that concentrate incoming sunlight, heating large volumes of liquid to high enough temperatures to produce steam. However, these complex systems can experience significant heat loss, leading to inefficient steam generation.

The approach itself is relatively simple: Since steam is generated at the surface of a liquid, Ghasemi looked for a material that could both efficiently absorb sunlight and generate steam at a liquid’s surface.

Nature Communications 5, Article number: 4449

Currently, steam generation using solar energy is based on heating bulk liquid to high temperatures. This approach requires either costly high optical concentrations leading to heat loss by the hot bulk liquid and heated surfaces or vacuum. New solar receiver concepts such as porous volumetric receivers or nanofluids have been proposed to decrease these losses. Here we report development of an approach and corresponding material structure for solar steam generation while maintaining low optical concentration and keeping the bulk liquid at low temperature with no vacuum. We achieve solar thermal efficiency up to 85%. This high performance results from four structure characteristics: absorbing in the solar spectrum, thermally insulating, hydrophilic and interconnected pores. The structure concentrates thermal energy and fluid flow where needed for phase change and minimizes dissipated energy. This new structure provides a novel approach to harvesting solar energy for a broad range of phase-change applications.

About halfway through i cracked the glass. Boy did it make me jump. Next time i think i will do 10 seconds then 10 seconds rather than 20 all at once. Still the exfoliation volume was truely astounding. In the first experiment I put a tespoon of the intercalated graphite in a jam jar and it filled the jar!



[0003] The present invention relates to structures that promote localized heating, and more specifically to structures for promoting the heating and phase change of liquids for use with solar collectors and other heating systems to harvest solar energy.

[0004] Solar irradiation is a promising source of renewable energy, as the hourly incident solar flux on the surface of the earth is greater than the annual global energy consumption. This resource is utilized in a variety of applications divided mostly into two main areas: photovoltaics and photo-thermal applications. Photo-thermal applications for harvesting solar energy currently suffer from low efficiency and require high concentrations of sunlight, which add complexity and cost to the solar energy harvesting systems. These applications are divided into three categories: low, medium, and high temperature. Currently, low and medium temperature applications are limited to small-scale residential and commercial use. In high temperature applications, concentrated solar power (CSP) systems have recently been used to produce steam with the temperature of approximately 450В° C. The superheated steam drives a heat engine (efficiency of 35-40%) to generate electricity. The thermal efficiency (?th) of these systems are defined as

[0013] In accordance with one embodiment of the invention, a localized heating structure for use in solar systems includes a thermally insulating layer having interconnected pores, a density of less than about 3000 kg/m<3>, and a hydrophilic surface, and an expanded carbon structure adjacent to the thermally insulating layer. The expanded carbon structure has a porosity of greater than about 80% and a hydrophilic surface. Methods of forming the localized heating structure are also provided.

[0015] The foregoing features of the invention will be more readily understood by reference to the following detailed description, taken with reference to the accompanying drawings, in which:

[0016] FIG. 1 schematically shows a localized heating structure according to embodiments of the present invention;

[0017] FIG. 2 schematically shows a localized heating structure in a container with water according to embodiments of the present invention in a container with water;

[0018] FIGS. 3A and 3B show a perspective view and cross-sectional view, respectively, of a localized heating structure with an expanded graphite layer according to embodiments of the present invention;

[0019] FIG. 4 schematically shows a localized heating structure having an aerogel layer according to embodiments of the present invention; and

[0020] FIG. 5 schematically shows a volumetric absorber according to embodiments of the present invention.

[0021] Various embodiments of the present invention provide structures that harvest solar energy efficiently in the form of heat. These structures concentrate the solar energy locally where it is needed and consequently minimize the dissipated thermal energy. The structures described herein aim to enhance the surface evaporation, to boost the efficiency of solar heating and to achieve local boiling at low Copt by minimizing heat dissipation to the surrounding medium.

0.6 W m<-1 >K<-1 >to that of the vapor phase (

0.02 W m<-1 >K<-1>), which is a 30Г— reduction in the value of ?.

2000 kg/m<3 >and their radius (rp) is

100 nm. Given this and assuming the thermal conductivity of vapor phase surrounding the particles, for Copt=6, if the size of agglomerates is more than 120 Вµm, then the temperature of vapor phase exceeds the saturation temperature and stable vapor bubbles form.

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