Opportunities for wastewater heat recovery in Hungary and its role in the circular economy

Apstract Applied Studies in Agribusiness and Commerce Pub Date : 2022-02-12 DOI:10.19041/apstract/2021/3-4/10

Zoltán Gabnai, K. Németh, E. Péter, Ardit Sertolli, Albiona Pestisha, Nóra Mezőfi, Attila Bai

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Abstract

Most of the energy content of wastewater can be found in wastewater heat, however, its recovery is limited. In this article, the current situation, future opportunities of wastewater heat recovery are presented based on secondary data collection, mentioning the constraints and main influencing factors of sustainable implementation of heat recovery systems in Hungary. Besides, the already existing systems are described. As regards the capacities of treatment plants, 103 of the 574 domestic plants have a capacity of over 20,000 Population Equivalent (PE), of which 25 plants have a capacity of over 100,000 PE. According to our calculations, in big cities/capitals (20.000 – 100.000, and over 100.000 inhabitants), it may be possible to recover wastewater heat sustainably in several places. In small towns (5.000 – 20.000 inhabitants), wastewater heat recovery can be technologically and economically sustainable only in the presence of agricultural or industrial plants with high and continuous wastewater feed into the pipeline system. Taking into account the temperature conditions at each place of use and their estimated fluctuations, it can be said that proper, careful planning, sizing and implementation have a crucial effect on the efficiency of microbiological activity in the treatment plants. In bigger cities, of course, the effect of the temperature drop of one main collector may be minimal, however, in smaller and medium-sized settlements, excessive heat extraction may result in complete inhibition or cessation of nitrification. In Hungarian case studies, the maximum acceptable temperature drop is approx. 2-3 °C. It can be stated that energy recovery from wastewater may be very promising considering the size and temperature limitations. Therefore, the rational recovery of wastewater heat can be an important part of the implementation of circular economy and sustainable energy utilization in wastewater management, resulting in significant energy savings and pollutant reduction. JEL CODE: Q25

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匈牙利废水热回收的机会及其在循环经济中的作用

废水的大部分能量可以在废热中找到，但其回收是有限的。本文在二次数据收集的基础上，提出了废水热回收的现状和未来机会，并提到了匈牙利热回收系统可持续实施的制约因素和主要影响因素。此外，还对现有的系统进行了描述。就污水处理厂的处理能力而言，574个国内污水处理厂中有103个的处理能力超过20,000人口当量，其中25个处理厂的处理能力超过100,000人口当量。根据我们的计算，在大城市/首都(20,000 - 100,000，以及超过100,000的居民)，有可能在几个地方可持续地回收废热。在小城镇(5 000 - 2万居民)，废水热回收在技术上和经济上都是可持续的，只有在农业或工业工厂存在的情况下，废水才能源源不断地流入管道系统。考虑到每个使用地点的温度条件及其估计的波动，可以说，适当、仔细的规划、规模和实施对处理厂微生物活动的效率具有至关重要的影响。当然，在较大的城市，一个主要集热器的温度下降的影响可能是最小的，然而，在中小型定居点，过多的热量提取可能导致硝化完全抑制或停止。在匈牙利的案例研究中，可接受的最大温度下降约为。2 - 3°C。可以这样说，考虑到废水的大小和温度的限制，从废水中回收能源可能是非常有前途的。因此，合理回收废热可以成为废水管理中实施循环经济和能源可持续利用的重要组成部分，从而实现显著的节能减排。凝胶代码:q25

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Apstract Applied Studies in Agribusiness and Commerce

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12 weeks