recovery of waste heat 中文意思是什麼
recovery of waste heat
解釋
廢熱回收-
In the third, this paper makes a survey on components of the exhausted flue gas and waste heat resource, and discusses the possibility and methods of steam generation and air preheating with the waste heat. and then, the analysis on the advantages and disadvantages of heat recovery plants with conventional steel - water heat pipes and inorganic heat - transfer heat pipes is carried out. the paper also gives a valuation about the plan and features of the design of heat recovery
對余熱源排煙的成分和余熱資源量進行標定,討論余熱回收產生蒸汽或加熱燃燒用空氣的可行性和方法,分析常規余熱回收技術設計、採用普通鋼-水熱管和無機傳熱熱管等傳熱元件的設計余熱回收裝置的優缺點,並對余熱回收設計方案及其特點進行總體評價。 -
Using the opened thermosiphon of 38x3 as experimental element and water as working fluid, the characteristics of dynamic low load boiling, stable severe boiling heat transfer coefficient and critical heat flux are gotten for the opened thermosiphon at the pressure of 0. 02 - 0. 1mpa and 0. 1 - 0. 8mpa respectively, which makes up the drawback that the opened thermisiphon has not yet accurate boiling heat transfer relationship formulas. by means of experimental results, an opened thermisiphon waste heat recovery boiler is designed for the high temperature gases that the positi e electrode copper refining furnace exhaust, which overcomes effectively the drawback of short life, little capacity and unable to inspect that the closed steel - water thermosion has
本文以工程上常用的38 3的開口封底為實驗元件,以水為工質,對開啟式熱管內的動態低負荷沸騰、穩態旺盛沸騰及臨界沸騰特性進行系統的可視化實驗研究,實驗壓力為0 . 02 0 . 8mpa ,實驗得出了38 3的開口封底管在工作壓力為0 . 02 0 . 8mpa和0 . 1 0 . 8mpa下的管內沸騰傳熱系數及臨界熱負荷計算關聯式,彌補了開口封底管? ?這一新型傳熱元件尚無準確的沸騰換熱關聯式的缺陷。 -
The second chapter studies the economy of ship ' s power plants, based on the aspects of lowering fuel cost, waste heat recovery, the match of ship, machinery and propeller, increasing propulsion efficiency, increasing the economy of ship ' s power plants, etc. the third chapter discusses in detail the control measures of voyage change cost, analysizes systematically the voyage change cost based on the way of fuel cost, harbor cost, voyage venture cost. the fourth chapter studies the structures and control measures of seafarers cost, maintenance cost, spare parts and stores cost, lubricating oil cost, etc. which are relatively easy to be controlled ; based on the state maintenance decision - making, a mathematical model is put forward, the validity and its solve process are discussed. the control measures of spare parts, fuel cost and lubricating oil cost should be based on scientific budget, through the control means of application, reception, usage, store check, try to acquire the inosculation of theory
第一章主要討論營運船舶運輸成本,對船舶運輸成本的概念、結構、性質與分攤、成本細分進行了分析,從宏觀上闡明了船舶運輸成本的生存環境和生長趨勢;第二章研究了船舶動力裝置的經濟性,在營運船舶降低油耗、廢熱利用、船機槳匹配、提高推進效率、提高船舶動力裝置經濟性的有效途徑等方面進行了闡述和論證;第三章詳細論述並論證了航次變動成本的控制措施,全面系統地分析和總結了航次變動成本,通過對燃油成本、港口使費、航次風險成本的分析與控制,提出了航次風險成本的概念並論述了若干航次風險成本的控制措施;第四章對船舶營運成本中的船員費用控制、維修保養及其費用控制、船舶備件物料管理及其費用控制等幾個主要可控性較高的成本進行了細致的分析並分別討論了相互的控制措施,提出了基於狀態維修決策的馬爾可夫數學模型並論證了模型的正確性及具體解算步驟,對于備件、燃潤物料的控制堅持以科學的預算為前提,以申領、接收、使用、盤存為控制環節,切實做到理論與實踐的密切結合;第五章,結合營運成本的預核算的案例,對船舶營運成本的預算及核算進行了有益的探討,旨在揭示成本發生的動因,並給出了成本預算、核算的編制方法。 -
For saving energy with waste heat recovery thermo - acoustic engine is a promising way due to its simple structure, absence of pollution and low cost
摘要以低溫排熱的有效利用為目的,設計製作了一臺熱聲發動機的實驗樣機。 -
The temperature of waste fume are reduced from 200 to 60 in order to increasing recovery rate of waste heat further in htac
為了進一步提高煙氣余熱回收率,進行了將排煙溫度降低到60的實驗。 -
Engaged in project evaluation and engineering design in the fieldof thermal engineering, waste heat recovery, and water treatment, as well as the design of waste heat boilers
主要從事熱能工程,廢熱利用工程,化學水處理工程項目的評估和工程設計以及各種廢熱鍋爐的設計。 -
According to thinking relevant to the formulation of the scheme for the project of recovery of waste heat from low - temperature blown gas, the design of a short - type unit with water - cooled walls for co - production of heat and power from subhigh pressure blown gas
摘要按編制低溫吹風氣余熱回收工程方案的有關思路,介紹了帶水冷壁的矮型次高壓吹風氣熱電聯產裝置的設計情況。 -
The heat pipe exchanger has the advantages of compact, controlling erode of acid dew point, high efficiency, low pressure drop loss and reliability, so they are used widely in heat energy utilization and waste heat recovery. it is also helpful to recover the waste heat, save the raw materials and reduce the production costs. economic benefit from application is obvious
以熱管為傳熱元件的熱管換熱器具有下列特點:傳熱效率高,壓力損失小,工作可靠,結構緊湊,有利於控制露點腐蝕等,這些獨特的優點是它在解決能源問題,如:利用熱能、節約原料、降低成本等方面,特別是在工業余熱利用中發揮了越來越多重要的作用。 -
Energy conservation equipment such as heat pumps, waste heat recovery systems, low energy process equipment and equipment for adoption of alternative energy
節能設備如熱泵、餘熱回收系統、低耗能工序設備以及使用另類能源的設備。 -
The three - wastes fluid - bed multifuel burner utilizes the characteristics of fluid - bed burning and the blow gas waste heat boiler for recovery, and burns the waste gas, ash and residue from the gasifier to produce hot flue gas, which, after dust settling in the multiple dust collector, enters the waste heat boiler to recover waste heat for the generation of high - grade steam to be used in production
摘要三廢流化床混燃爐系運用流化床燃燒特點,採用吹風氣餘熱鍋爐回收模式,對造氣產生的廢渣、廢灰、廢氣混燃,產生熱煙氣,經組合式除塵器除塵后,進入餘熱鍋爐回收餘熱,生產高品質蒸汽供生產用。 -
The paper briefly introduces the work mechanism of heat pipe and heat pipe heat exchanger, the application of heat pipe heat exchanger in industrial recovery of waste heat, and the effective measures to prevent the problems such as ash accumulated on surface of heat pipes and sulphuric acid corrosion at low temperature during the running period of heat pipe heat exchanger
摘要簡要介紹了熱管及熱管式換熱器的工作原理,熱管式換熱器在工業余熱回收中的應用,以及熱管式換熱器運行過程中防止積灰和低溫腐蝕等問題的有效措施。 -
In brief, heat pump, in condensing power plant, can recovery the waste heat of circling water, and this technology is crucial to save energy and industrial service water and protect natural environment
在凝汽發電廠,應用熱泵提取循環水中的熱量,對節約能源、節約用水和保護環境具有重要意義。 -
The unit is completed and put into operation, thus pushing the technology for centralized recovery of waste heat from low - temperature blown gas to a new level
該裝置的建成投產,將低溫吹風氣余熱集中回收技術推向了一個新水平。 -
Further, waste heat recovery boiler and steam turbine are combined to improve system efficiency, resulting combined cycle generation. main characteristics of this technology are as follows
為進一步提高系統效率,可利用氣化系統和內燃機產生的余熱,通過余熱鍋爐和蒸汽輪機實現聯合循環發電。 -
This essay has touched upon the following work : 1. has built up theoretic models including static mathematic models of air compressor, combustion chamber, gas turbine, waste heat recovery boiler and steam turbine which are deduced according to the feature and theory of the equipment of the object of study. upon establishment of each model based on the actual conditions, a method of multiple imitation and combination is applied to parts which have already got characteristic curves to have achieved quite accurate curves whilst the method of neural net is applied to the parts which have no characteristic curves for establishment of models
本文進行了以下的主要工作:建立理論模型,根據對象的實際設備的特點和理論關系推導壓氣機、燃燒室、燃氣輪機、余熱鍋爐、汽輪機的靜態數學模型;根據本研究的實際情況,在建立各部件模型時,對已有特性曲線的部件,採用多項式擬合的方法,得到較為準確的特性,而對部分沒有曲線的特性,則採用神經網路的方法建立模型。 -
Since energy crisis occurred in 1970 ' s, latent heat thermal energy storage ( lhtes ) has gained more attention than before due to its being the key element to accomplish energy recovery and utilization of solar energy, industrial waste heat and off peak electricity. compared with developed countries, in this area, china still has a long way to go
自上個世紀70年代能源危機以來,相變貯能的理論與應用研究在世界發達國家迅速崛起並得到不斷發展,其研究和應用涉及材料科學、太陽能、工程熱物理、空調和採暖及工業廢熱利用等領域。 -
Abstract : methods and main equipment of waste heat recovery in sulphur - buring sulphuric acid plants are described
文摘:系統闡述了硫磺制酸生產過程中的廢熱回收方法、主要設備和提高熱回收率的措施。 -
And it is becoming a highly valued opinion of how to recovery the low temperature waste heat occurring in industrial process
如何利用工業生產過程中產生的大量低溫余熱也越來越受到人們的重視。 -
Based on the study of huge low temperature waste heat occurring in unit # 3 - turbine circle water located in beihai power plant, this dissertation specially chooses heat pump technology to realize waste heat recovery, and proposes a practical plan to supply heat for plant office in winter
本文針對北海熱電廠三號汽輪機在生產過程中,通過循環水排出大量低溫余熱的實際情況,研究採用熱泵技術回收部分熱量,實現冬季為廠區辦公樓供暖的方案。
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