1) Gas Engine-Driven Heat Pump
燃气机热泵
1.
PER of gas engine-driven heat pump systems at different combined supply energy modes;
燃气机热泵系统不同联供运行模式一次能源利用率的分析
2.
Experimental investigation on partial load characteristics of gas engine-driven heat pump;
燃气机热泵变负荷特性的试验研究
3.
The technology and economy of heat-supply modes using heat and power cogeneration,district heating boiler plant,gas water heater,electricity,regenerative electric boiler,gas engine-driven heat pump,electric air-source heat pump,electric water-source heat pump and so on are discussed.
对采用热电联产、区域供热锅炉房、燃气热水器、直接用电、电蓄热锅炉、燃气机热泵、电动空气源热泵、电动水源热泵等供热方式的技术及经济性进行了探讨。
2) gas engine driven heat pump
燃气机热泵
1.
Velocity detection method in gas engine driven heat pump;
一种燃气机热泵速度检测方法
2.
An energy calculation model is established for the gas engine driven heat pump based on the experiment of components.
在对燃气机热泵部件进行实验的基础上,建立了燃气机热泵系统能耗计算模型。
3.
The thermodynamics analysis of gas engine driven heat pump (GEHP) is processed with the first law of thermodynamics, exergy theory and energy grade theory in this paper.
对燃气机热泵进行热力学第一定律分析、(火用)分析和能级分析,结果表明燃气机热泵具有高的热力学完善性,能量利用过程也比较合理。
3) gas engine heat pump
燃气机热泵
1.
The influences of variation of compressor rotation speed on refrigerating output and heating output of gas engine heat pump and on input power of compressor are analyzed.
分析了压缩机转速变化对燃气机热泵制冷量、制热量及压缩机输入功率的影响。
2.
The option of refrigerant in gas engine heat pump is important for the cycle performance.
燃气机热泵系统工质的选择是影响机组性能的关键,为此,选择了6组低环害或无环害的循环工质,从制冷剂的安全性和与系统润滑油的兼容性方面作了分析,同时以CSD方程计算了各组工质的循环参数,从热力学第一定律和一次能源利用率方面进行了分析。
4) GEHP
燃气机热泵
1.
Research on the Control of GEHP s Vibration and Noise;
燃气机热泵振动及噪声控制的研究
2.
The gas engine driven heat pump (GEHP) is a high efficiency, energy saving,economy and environment protection equipment that can provide heating in winterand cooling in summer, which uses nature gas engine as source of power, and makesfully use of waste heat of engine and industry, and environment energies of lowquality.
燃气机热泵是以燃气发动机为动力源,并充分利用发动机废热、工业余热以及低品位环境热量,实现冬季采暖、夏季制冷的高效节能、经济环保的空调供热装置。
3.
The gas engine-driven heat pump (GEHP) is a high performance and environment-friendly equipment that can provide heating and cooling, but at present the study on the GEHP is insufficient in China.
燃气机热泵是一种高效节能、经济环保的新型供热空调装置,国内对该装置的研究正处于起步阶段。
5) Water-Water Gas Engine Driven Heat Pump (WWGEHP)
水-水燃气机热泵
1.
Water-Water Gas Engine Driven Heat Pump (WWGEHP) is complex process model, which has characteristics of multi-variable, nonlinear, strong-coupling and time lag.
水-水燃气机热泵是一个复杂的过程对象,具有多变量、非线性、强耦合和时滞性的特点,如果通过机理建模法得到动态模型比较复杂,也不容易实现,且模型的精度也较低。
6) Gas-engine heat pump
燃气发动机热泵
补充资料:RLY系列燃油、燃气热风炉
应用:
广泛应用于制药、化工、食品、纺织印染、粮食加工、木材加工、汽车等工业领域各种产品的干燥、固化热定型等作用。
原理:
燃料通过燃烧器燃烧,产生高温烟气,并借助具有强化换热措施的热风炉将高温烟气的热量传导给被加热的空气,高温燃气经气量散发后温度降低至250℃以下由引风机排放到大气,吸热后温度升至额定值从热风出口送出,当所见温度达到额定的上限温度时,燃烧器会自动停止燃烧或自动转为小火燃烧,当热风降低到额定的下限温度时,燃烧器又会重新点燃运行或转为大火燃烧,升温的速度可通过调进风阀来实现。
技术参数;
型号 | 燃油量 | 供热量(×104kcal/h) | 外型尺寸(mm) | 热风口(mm) | 总重(kg) |
RLY1 | 1.3-1.6 | 1 | 1000×1000×1600 | ø200 | 750 |
RLY4 | 5-6.5 | 4 | 1700×1000×1600 | 140×160 | 1100 |
RLY10 | 13-16 | 10 | 2100×1300×1600 | 180×200 | 1970 |
RLY20 | 26-32 | 20 | 2800×14000×1700 | 200×250 | 2260 |
RLY30 | 39-48 | 30 | 3400×1500×1800 | 250×300 | 3160 |
RLY40 | 52-64 | 40 | 4020×1700×1900 | 300×400 | 4750 |
RLY60 | 78-96 | 60 | 4800×1900×2100 | 400×500 | 5650 |
RLY100 | 130-160 | 100 | 5400×2100×2300 | 550×650 | 6550 |
RLY200 | 260-320 | 200 | 6000×2500×2400 | 750×900 | 7980 |
RLY360 | 468-720 | 360 | 7200×2900×2600 | 900×1200 | 9860 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条