余熱回收 的英文怎麼說
中文拼音 [yúrèhuíshōu]
余熱回收
英文
heat-recovering-
The afterheat, which is collected by recovery devices, in winter can be used as the low level thermal source of heat pump, and in summer can preheat feed water, thus equivalent an economizer. because energy flows in the system so reasonably that energy is used to the most, therefore, its energy conservation effect is significant, and the operating expenditure declines consequently. the sewage can be reused after due treatment, thua it has a certain social and ecological benefit, too
本研究中選用分離式熱管裝置提供洗浴用水,利用水源熱泵裝置,一機兩用,進行空間供熱和製冷,並通過余熱回收器對系統內的余熱進行回收,冬季可作為水源熱泵的低位熱源,夏季可對鍋爐給水進行預熱,起到「省煤器」的作用。這樣實現系統內的能量合理流動,從而達到節能的目的,同時洗浴污水經適當的處理后可以回用,因而還具有一定的社會和生態效益。Energy efficiency fund in jointly efforts of unido, alton fund and netherlands government 5. distributing cooling, heating and power combined supply system
提高常規發電廠效率技術:研究超聲波乳化燃油節油技術以及燃煤發電廠汽輪機余熱蒸汽中熱能回收技術等。Surplus heat recovery of gas engine driven water to water heat pump
水燃氣機熱泵的余熱回收Thermal economical analysis and waste heat reclamation in two - step phosphorous acid production process
兩步法磷酸生產余熱回收改造及熱經濟學分析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。2. design scheme of gravity heat pipe air pre - heater is proposed which fits the actual situation of injecting steam boilers. detailed heat calculation and design on heat recovery of flue gas is carrying out
提出了採用適合於注汽爐實際工況的重力熱管式空氣預熱器的設計方案,對煙氣的余熱回收進行了詳細的熱力計算和設計。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。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。Heat pump, as an effective energy saving device, is qualified to be employed in saving energy and enhancing energy recovery
熱泵作為一種利用低溫熱源的節能裝置,用於余熱回收和提高能源利用率的意義變得日趨重要。Discussed taking advance condensation heat of water in waste fume. at the same time, the water can absorbed several pollutants in waste fume
對比了不同空氣系數下,不同排煙溫度時的余熱回收溫度效率,探討了利用燃燒過程中生成水的冷凝熱及其對污染物的吸收作用。The present situation of energy utilizing in foundry industry was analyzed, the main effective energy saving techniques and their application was described in aspects of melting and heating systems, moulding and core - making processes and equipments, low - stress cast irons, as - cast nodular irons, feeder - less method of nodular reclaiming of cupola gas, and so on
摘要分析了鑄造行業能源利用現狀,從熔煉加熱系統、造型制芯技術與裝備、低應力鑄鐵、鑄態球墨鑄鐵、球鐵無冒口鑄造、鑄鋼保溫冒口與保溫補貼、沖天爐廢氣綜合利用和余熱回收利用等方面闡述了鑄造行業行之有效的主要節能技術及其應用。Application of gravitational heat - pipe in heat recovery
重力熱管鍋爐在余熱回收中的應用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 the end, the paper makes an thermodynamic analysis, evaluation of investment and techno - economic analysis on the retrofit plans of heat recovery steam generator and air pre - heater, which helps to make the evaluation of the plans from the view of energy conservation and economy benefit
完成熱管布置設計和設備細部結構設計,繪制余熱回收設計圖紙。最後對所設計的余熱鍋爐和空氣預熱器方案進行熱力學分析、投資概算和技術經濟分析,從節能和經濟性角度評價了設計方案的效益。The working pairs and cycles suitable for diesel exhaust heat recovery are chosen. the empirical adsorption rate of cacia ? ha pair is modified through experimental investigation for non - equilibrium adsorption condition. 2
確定了適合內燃機余熱回收的吸附工質對和循環方式,在非平衡吸附的條件下,採用實驗測試手段,修正了氯化鈣一氨工質對的經驗型吸附速度方程。Based on the comparative analysis of two available heat system plan, the paper selects the water - water heat pump system plan. after a series of character analysis, design calculation ; the style of compressor including media choosing and its circle dynamic calculation for the thermodynamic system is determined. besides this, based on some basic measure of thermodynamic analysis, the heat pump coefficient of performance is discussed ; the exergy analysis for the water - water heat plan is conducted ; the calculation formula of heat pump exergy efficiency is derived ; an optimal model for heat pump together with thermal machine is established and the main exchanger equipment in heat pump system including its resistance calculation is designed in details
本文通過對兩種系統方案進行比較分析,確定了水環熱泵系統的基本方案,經過定性分析和設計計算,進行了壓縮機的選型、工質的選擇、熱力系統的循環計算等基本設計,同時應用熱力學分析的一些基本方法,討論了如何評價熱泵系統的性能系數,並對電廠循環水余熱回收熱泵系統進行了(火用)分析,得到了熱泵過程(火用)效率的計算公式,建立了熱泵?熱機聯合機組優化模型,還對熱泵系統的主要換熱設備進行了詳細的結構設計和阻力計算,最後對熱泵系統進行了技術經濟分析和評價。The article introduces the system structure, operating principle and the characteristics of three operating modes of the hot - water heat pump unit of recovering cold energy, and compares and analyzes its power saving effect with other heat supply devices
介紹了余冷回收熱泵熱水機組的系統構成、工作原理以及3種模式的運行特性,並對其節能效果與其他熱源設備進行對比和分析。Experimental investigation on ventilation heat exchanger
通風余熱回收換熱器的實驗研究These analyses indicate that the periods of time for equipment investment reclaim are from 5 to 15 months, which shows their economic benefit efficiency and energy conservation efficiency are remarkable
分析表明,所設計的余熱回收裝置的投資回收期在5 15個月,經濟效益和節能效果十分顯著。The temperature of the exhaust heat during the process of yielding the oil and the remaining heat in the electricity plant is low, and they are usually been regarded as wasting heat and thrown away, but the temperature of these heat is higher than the temperature of the environment. if we can design the corresponding heat pump device and reclaim this part of heat, the economic benefit is very considerable
石油生產中的廢熱和電廠余熱溫度低,通常被當作廢熱扔掉,但這部分熱量的溫度比環境溫度高許多,設計相應的熱泵裝置,回收這部分熱量,經濟效益可觀,本文以石油生產和電廠余熱回收利用為出發點,研究熱泵技術在油田及電廠的應用。分享友人