实验室过滤机及中试过滤机

具有说服力的试验

试验用加压转鼓过滤机(型号 RPF P01),过滤面积为 0.18 m²
试验用加压转鼓过滤机(型号 RPF P01),过滤面积为 0.18 m²

我们提供多种实验室过滤机及中试过滤机,供出租用于现场试验。通过现场试验,从初步试验所得到的认识可以得到中试规模的确认和深化。对于所有 BHS 过滤系统,都有先进的实验室过滤机及中试过滤机或中试过滤系统可供使用。这些试验机根据特定应用目的进行装备,是特别为租用在和生产相近的场合而设计的。我们训练有素的服务技师将在现场进行试验的安排和指导。将从这些试验得到的结果按比例放大,可以可靠地进行计划中产品设备的设计。

除了供应实验室过滤机及中试过滤机系统用于进行试验外,我们也为最小规模的生产或装备技术实验中心提供这些单元(新的或者二手的)供您选购。

在线联系请求
检查填写内容
检查填写内容

下载

“过滤技术”调查问卷 (PDF / 27 KB)
“过滤技术”调查问卷

该调查问卷说明您的过滤用途,用于帮助我们明确您对产品的要求和准备报价或进行过滤试验。

大小: 27 KB

优点

  • 最佳的技术装备
  • 按比例放大的安全方式
  • 快速可用性

应用

  • 进行中试规模的试验
  • 生产样品
  • 最小规模生产

BHS 过滤技术实验中心

跳转至 BHS 技术实验中心试验的链接

专业技术论文

Thin-cake filtration technology to meet full containment for air-sensitive and toxic chemical and pharmaceutical production

PharmaChem
1/2 2016 (January/February)
二月 2016
PDF (3.5 MB)
Thin-cake filtration technology to meet full containment for air-sensitive and toxic chemical and pharmaceutical production

In many chemical and pharmaceutical processes, solid-liquid separation, cake washing and drying steps directly impact the effectiveness of the production operation. Further complicating these operations is the nature of the process and especially if the process is air-sensitive or toxic. This article discusses the choice of thin-cake (2-25 mm) pressure separation technology for full containment, no residual heel and their benefits to optimizing the effectiveness of the production process. For full containment, the paper then continues with a discussion of clean-in-place operations to meet current Good Manufacturing Practices (cGMP) guidelines including riboflavin test, validations and ANSI/ISA S88 and IEC 61512-1 batch process control systems.

大小: 3.5 MB

Choosing a Fine-Particle Filtration System

Chemical Engineering Progress (CEP)
December 2014
十二月 2014
PDF (4.4 MB)
Choosing a Fine-Particle Filtration System

Filtration technology has advanced to meet the demand to remove small particles at low concentrations. When designed ocrrectly, a candle filter or a pressure plate filter may be a more-efficient replacement for a traditional filtration scheme.

大小: 4.4 MB

Thinking like Sherlock Holmes for process filtration technology selection

CHEMICAL TECHNOLOGY
September 2014 (pages 18-22)
九月 2014
PDF (841 KB)
Thinking like Sherlock Holmes for process filtration technology selection

Sherlock Holmes and Dr John Watson are fictional characters of Sir Arthur Conan Doyle. Process engineers who live in the real world can learn many things from the two of them for solving process filtration problems. This article will intertwine the detective techniques (mindfulness, astute observation, logical deduction and others) of Holmes and Watson with the problem-solving skills required to select process filtration systems.

大小: 841 KB
确定
我们使用 Cookies,以确保最大程度满足访问者需求。浏览我们的网站前提是,您同意在您的计算机上安装 Cookies。 隐私条款